1. Model-based reinforcement learning with dimension reduction
Author(s): Voot Tangkaratt, Jun Morimoto, Masashi Sugiyama
Pages: 1-16
2. From free energy to expected energy: Improving energy-based value function approximation in reinforcement learning
Author(s): Stefan Elfwing, Eiji Uchibe, Kenji Doya
Pages: 17-27
3. Piece-wise quadratic approximations of arbitrary error functions for fast and robust machine learning
Author(s): A.N. Gorban, E.M. Mirkes, A. Zinovyev
Pages: 28-38
4. Mean-square exponential input-to-state stability of delayed Cohen–Grossberg neural networks with Markovian switching based on vector Lyapunov functions
Author(s): Zhihong Li, Lei Liu, Quanxin Zhu
Pages: 39-46
5. image state estimation for memristive neural networks with time-varying delays: The discrete-time case
Author(s): Sanbo Ding, Zhanshan Wang, Jidong Wang, Huaguang Zhang
Pages: 47-56
6. Semi-supervised learning for ordinal Kernel Discriminant Analysis
Author(s): M. Pérez-Ortiz, P.A. Gutiérrez, M. Carbonero-Ruz, C. Hervás-Martínez
Pages: 57-66
7. Global synchronization of memristive neural networks subject to random disturbances via distributed pinning control
Author(s): Zhenyuan Guo, Shaofu Yang, Jun Wang
Pages: 67-79
8. Adaptive PID control based on orthogonal endocrine neural networks
Author(s): Miroslav B. Milovanović, Dragan S. Antić, Marko T. Milojković, Saša S. Nikolić, Staniša Lj. Perić, Miodrag D. Spasić
Pages: 80-90
9. Emergence of low noise frustrated states in E/I balanced neural networks
Author(s): I. Recio, J.J. Torres
Pages: 91-101
10. Delay-distribution-dependent image state estimation for delayed neural networks with image-dependent noises and fading channels
Author(s): Li Sheng, Zidong Wang, Engang Tian, Fuad E. Alsaadi
Pages: 102-112
11. A neurodynamic approach to convex optimization problems with general constraint
Author(s): Sitian Qin, Yadong Liu, Xiaoping Xue, Fuqiang Wang
Pages: 113-124
12. Multistability of complex-valued neural networks with discontinuous activation functions
Author(s): Jinling Liang, Weiqiang Gong, Tingwen Huang
Pages: 125-142
13. A Self-Organizing Incremental Neural Network based on local distribution learning
Author(s): Youlu Xing, Xiaofeng Shi, Furao Shen, Ke Zhou, Jinxi Zhao
Pages: 143-160
14. New results on exponential synchronization of memristor-based neural networks with discontinuous neuron activations
Author(s): Abdujelil Abdurahman, Haijun Jiang
Pages: 161-171
15. Coexistence and local image-stability of multiple equilibrium points for memristive neural networks with nonmonotonic piecewise linear activation functions and unbounded time-varying delays
Author(s): Xiaobing Nie, Wei Xing Zheng, Jinde Cao
Pages: 172-180
Monday, November 7, 2016
Wednesday, November 2, 2016
IEEE Transactions on Neural Networks and Learning Systems, Volume 27, Issue 11, November 2016
1. Decomposition Techniques for Multilayer Perceptron Training
Author: Luigi Grippo; Andrea Manno; Marco Sciandrone
Page(s): 2146 - 2159
2. Learning Robust and Discriminative Subspace With Low-Rank Constraints
Authors: Sheng Li; Yun Fu
Page(s): 2160 - 2173
3. Decentralized Dimensionality Reduction for Distributed Tensor Data Across Sensor Networks
Authors: Junli Liang; Guoyang Yu; Badong Chen; Minghua Zhao
Page(s): 2174 - 2186
4. Learning Transferred Weights From Co-Occurrence Data for Heterogeneous Transfer Learning
Authors: Liu Yang; Liping Jing; Jian Yu; Michael K. Ng
Page(s): 2187 - 2200
5. Multiple Representations-Based Face Sketch–Photo Synthesis
Authors: Chunlei Peng; Xinbo Gao; Nannan Wang; Dacheng Tao; Xuelong Li; Jie Li
Page(s): 2201 - 2215
6. RBoost: Label Noise-Robust Boosting Algorithm Based on a Nonconvex Loss Function and the Numerically Stable Base Learners
Authors: Qiguang Miao; Ying Cao; Ge Xia; Maoguo Gong; Jiachen Liu; Jianfeng Song
Page(s): 2216 - 2228
7. Estimating Sensorimotor Mapping From Stimuli to Behaviors to Infer C. elegans Movements by Neural Transmission Ability Through Connectome Databases
Authors: Cheng-Wei Li; Chung-Chuan Lo; Bor-Sen Chen
Page(s): 2229 - 2241
8. A Comparison of Algorithms for Learning Hidden Variables in Bayesian Factor Graphs in Reduced Normal Form
Authors: Francesco A. N. Palmieri
Page(s): 2242 - 2255
9. Sparse Bayesian Classification of EEG for Brain–Computer Interface
Authors: Yu Zhang; Guoxu Zhou; Jing Jin; Qibin Zhao; Xingyu Wang; Andrzej Cichocki
Page(s): 2256 - 2267
10. Robust Kernel Low-Rank Representation
Authors: Shijie Xiao; Mingkui Tan; Dong Xu; Zhao Yang Dong
Page(s): 2268 - 2281
11. Improving on Deterministic Approximate Bayesian Inferences for Mixture Distributions
Authors: Yohei Nakada
Page(s): 2282 - 2300
12. Optimizing Single-Trial EEG Classification by Stationary Matrix Logistic Regression in Brain–Computer Interface
Authors: Hong Zeng; Aiguo Song
Page(s): 2301 - 2313
13. Online Learning ARMA Controllers With Guaranteed Closed-Loop Stability
Authors: Savaş Şahin; Cüneyt Güzeliş
Page(s): 2314 - 2326
14. Feature Extraction Using Memristor Networks
Authors: Patrick M. Sheridan; Chao Du; Wei D. Lu
Page(s): 2327 - 2336
15. Exponential Stability and Stabilization of Delayed Memristive Neural Networks Based on Quadratic Convex Combination Method
Authors: Zhanshan Wang; Sanbo Ding; Zhanjun Huang; Huaguang Zhang
Page(s): 2337 - 2350
16. Detecting Wash Trade in Financial Market Using Digraphs and Dynamic Programming
Authors: Yi Cao; Yuhua Li; Sonya Coleman; Ammar Belatreche; Thomas Martin McGinnity
Page(s): 2351 - 2363
17. Multi-AUV Target Search Based on Bioinspired Neurodynamics Model in 3-D Underwater Environments
Authors: Xiang Cao; Daqi Zhu; Simon X. Yang
Page(s): 2364 - 2374
18. A Consistent Model for Lazzaro Winner-Take-All Circuit With Invariant Subthreshold Behavior
Authors: Ruxandra L. Costea; Corneliu A. Marinov
Page(s): 2375 - 2385
19. Asymptotically Stable Adaptive–Optimal Control Algorithm With Saturating Actuators and Relaxed Persistence of Excitation
Authors: Kyriakos G. Vamvoudakis; Marcio Fantini Miranda; João P. Hespanha
Page(s): 2386 - 2398
20. Identification of Nonlinear Spatiotemporal Dynamical Systems With Nonuniform Observations Using Reproducing-Kernel-Based Integral Least Square Regulation
Authors: Hanwen Ning; Guangyan Qing; Xingjian Jing
Page(s): 2399 - 2412
21. Echo State Networks With Orthogonal Pigeon-Inspired Optimization for Image Restoration
Authors: Haibin Duan; Xiaohua Wang
Page(s): 2413 - 2425
22. Group Component Analysis for Multiblock Data: Common and Individual Feature Extraction
Authors: Guoxu Zhou; Andrzej Cichocki; Yu Zhang; Danilo P. Mandic
Page(s): 2426 - 2439
23. Synchronization Control of Neural Networks With State-Dependent Coefficient Matrices
Authors: Junfeng Zhang; Xudong Zhao; Jun Huang
Page(s): 2440 - 2447
24. Efficient χ2 Kernel Linearization via Random Feature Maps
Authors: Xiao-Tong Yuan; Zhenzhen Wang; Jiankang Deng; Qingshan Liu
Page(s): 2448 - 2453
Author: Luigi Grippo; Andrea Manno; Marco Sciandrone
Page(s): 2146 - 2159
2. Learning Robust and Discriminative Subspace With Low-Rank Constraints
Authors: Sheng Li; Yun Fu
Page(s): 2160 - 2173
3. Decentralized Dimensionality Reduction for Distributed Tensor Data Across Sensor Networks
Authors: Junli Liang; Guoyang Yu; Badong Chen; Minghua Zhao
Page(s): 2174 - 2186
4. Learning Transferred Weights From Co-Occurrence Data for Heterogeneous Transfer Learning
Authors: Liu Yang; Liping Jing; Jian Yu; Michael K. Ng
Page(s): 2187 - 2200
5. Multiple Representations-Based Face Sketch–Photo Synthesis
Authors: Chunlei Peng; Xinbo Gao; Nannan Wang; Dacheng Tao; Xuelong Li; Jie Li
Page(s): 2201 - 2215
6. RBoost: Label Noise-Robust Boosting Algorithm Based on a Nonconvex Loss Function and the Numerically Stable Base Learners
Authors: Qiguang Miao; Ying Cao; Ge Xia; Maoguo Gong; Jiachen Liu; Jianfeng Song
Page(s): 2216 - 2228
7. Estimating Sensorimotor Mapping From Stimuli to Behaviors to Infer C. elegans Movements by Neural Transmission Ability Through Connectome Databases
Authors: Cheng-Wei Li; Chung-Chuan Lo; Bor-Sen Chen
Page(s): 2229 - 2241
8. A Comparison of Algorithms for Learning Hidden Variables in Bayesian Factor Graphs in Reduced Normal Form
Authors: Francesco A. N. Palmieri
Page(s): 2242 - 2255
9. Sparse Bayesian Classification of EEG for Brain–Computer Interface
Authors: Yu Zhang; Guoxu Zhou; Jing Jin; Qibin Zhao; Xingyu Wang; Andrzej Cichocki
Page(s): 2256 - 2267
10. Robust Kernel Low-Rank Representation
Authors: Shijie Xiao; Mingkui Tan; Dong Xu; Zhao Yang Dong
Page(s): 2268 - 2281
11. Improving on Deterministic Approximate Bayesian Inferences for Mixture Distributions
Authors: Yohei Nakada
Page(s): 2282 - 2300
12. Optimizing Single-Trial EEG Classification by Stationary Matrix Logistic Regression in Brain–Computer Interface
Authors: Hong Zeng; Aiguo Song
Page(s): 2301 - 2313
13. Online Learning ARMA Controllers With Guaranteed Closed-Loop Stability
Authors: Savaş Şahin; Cüneyt Güzeliş
Page(s): 2314 - 2326
14. Feature Extraction Using Memristor Networks
Authors: Patrick M. Sheridan; Chao Du; Wei D. Lu
Page(s): 2327 - 2336
15. Exponential Stability and Stabilization of Delayed Memristive Neural Networks Based on Quadratic Convex Combination Method
Authors: Zhanshan Wang; Sanbo Ding; Zhanjun Huang; Huaguang Zhang
Page(s): 2337 - 2350
16. Detecting Wash Trade in Financial Market Using Digraphs and Dynamic Programming
Authors: Yi Cao; Yuhua Li; Sonya Coleman; Ammar Belatreche; Thomas Martin McGinnity
Page(s): 2351 - 2363
17. Multi-AUV Target Search Based on Bioinspired Neurodynamics Model in 3-D Underwater Environments
Authors: Xiang Cao; Daqi Zhu; Simon X. Yang
Page(s): 2364 - 2374
18. A Consistent Model for Lazzaro Winner-Take-All Circuit With Invariant Subthreshold Behavior
Authors: Ruxandra L. Costea; Corneliu A. Marinov
Page(s): 2375 - 2385
19. Asymptotically Stable Adaptive–Optimal Control Algorithm With Saturating Actuators and Relaxed Persistence of Excitation
Authors: Kyriakos G. Vamvoudakis; Marcio Fantini Miranda; João P. Hespanha
Page(s): 2386 - 2398
20. Identification of Nonlinear Spatiotemporal Dynamical Systems With Nonuniform Observations Using Reproducing-Kernel-Based Integral Least Square Regulation
Authors: Hanwen Ning; Guangyan Qing; Xingjian Jing
Page(s): 2399 - 2412
21. Echo State Networks With Orthogonal Pigeon-Inspired Optimization for Image Restoration
Authors: Haibin Duan; Xiaohua Wang
Page(s): 2413 - 2425
22. Group Component Analysis for Multiblock Data: Common and Individual Feature Extraction
Authors: Guoxu Zhou; Andrzej Cichocki; Yu Zhang; Danilo P. Mandic
Page(s): 2426 - 2439
23. Synchronization Control of Neural Networks With State-Dependent Coefficient Matrices
Authors: Junfeng Zhang; Xudong Zhao; Jun Huang
Page(s): 2440 - 2447
24. Efficient χ2 Kernel Linearization via Random Feature Maps
Authors: Xiao-Tong Yuan; Zhenzhen Wang; Jiankang Deng; Qingshan Liu
Page(s): 2448 - 2453
Monday, October 31, 2016
Examining Postgraduate Theses
I've examined a number of postgraduate theses by this point in my career. These are Doctoral and Master's theses from New Zealand and overseas institutions.While most of those theses have been a real pleasure to review, some have been real horrors. Even the ones I enjoyed examining often had errors in them. The errors that appear, though, tend to be the same kind of errors. That is, candidates for higher degrees are making the same errors even though they are from different institutions. So, I've written this post to discuss these errors, and how to avoid them. This post, then, describes what I look for in a thesis, and what I don't want to see in a thesis. Since I've mostly examined Doctoral and Master's theses, these are the focus of this post.
Examiners usually get paid an honorarium, and as a New Zealand resident the honorarium I receive from a New Zealand institution has always had tax deducted from it. The size of the honorarium varies between institutions, but if you consider the time it takes to examine a thesis, it comes out at substantially less than minimum wage.
I prefer to receive the thesis as a PDF, as I find the examination process much easier when done electronically. I usually load the PDF onto my tablet, so I can get some examination work done during my daily commute on the train. When I submit my report and recommendation, I send the marked-up PDF with it.
The literature review should relevant to the topic of the thesis. I don't want to have to wade through pages of literature review that don't have anything to do with the thesis. Or, to put it another, way, don't "stuff" your literature review, it just annoys the examiner. A good question to ask about any part of the literature review is "why is this in the thesis?".
The literature review should be to-the-point. Anyone examining the thesis will have been carefully chosen and they will be experts in the field. Spending pages reviewing or describing material that a third-year student in the field should know is a waste of time and space. Better to just cite the key relevant papers and move on.
The literature review should also be critical. What are the holes in the literature? What is wrong with what has been previously published? What could have been done better? The work in a thesis should build upon what has gone before, it is incredibly rare that a thesis introduces an entirely new field.
If a thesis isn't clear, then it won't pass the examination. If you're lucky, then the examiner will give you enough detail to fix it and another examination. If not, then you will fail.
Citations should be formatted correctly. Citations that are in-text are usually done something like (Smith, 1999). When the citation is referred to directly, it is something like "as in Smith (1999)". This is also the form used when the citation leads the sentence, for example "Smith (1999) said that...". While most authors nowadays will be using reference-management software, you should know how to use the software and not rely on the defaults.
This might seem like a small thing, but every time a reader comes across an incorrectly-formatted citation, it can break the flow of their reading. Break the flow of reading enough and the reader gets frustrated. That's not what you want when the reader is an examiner with the power to make the last three (or more) years of your life irrelevant.
Firstly, use a spell-checker. These are so straightforward to use now that there is no excuse for any incorrectly spelt words to appear in a thesis that is going for examination. However, relying on a spell-checker is also dangerous. Spell-checkers only tell you if a word is spelt incorrectly, they won't tell you if they are the wrong word to use. So, proof-reading is still essential.
Grammatical errors should also be checked for. While English has its quirks, these quirks must be known and dealt with. Small errors in grammar can completely change the meaning of a sentence. A common error is using incorrect tenses. For example, experiments reported in the thesis have been done, they are in the past, so use the past tense to refer to them.
Firstly, do not use unnecessary precision in a table. If the table is presenting the area of city blocks, then presenting areas to the square millimetre is excessively precise.
Secondly, every column at least should be labelled. There are exceptions, of course, but it is important to consider whether the table could be understood without the labels. The rows and tables should also be in a logical structure, with related values grouped together.
The caption of a table or figure should be stand-alone, and should explain what the table or figure is showing. For tables, that means that column labels need to be described or defined. That is, the reader should be able to interpret the table or figure without having to refer to the main text of the work. This is because a table or figure often ends up being displayed on a different page to the explanation of the table, and having to flip back-and-forth between pages while trying to understand presented data is annoying. This can lead to some long captions.
For plots of data, be careful with legends and labels. These should be informative, not just some default like "x" on the x-axis. Again, the goal is clarity, as the purpose of a plot is to communicate to the reader.
There is, in my opinion, almost no situation under which a 3D plot makes sense. The 3D bar-charts in MS Excel are particularly bad and should not be used under any circumstances. 3D plots serve no purpose other than to show that the author knows how to make them. They do not make data clearer, but they are harder to accurately interpret.
Do not use line plots for discrete data. For example, a school has three terms per year, and students may commence their studies at the start of any of the terms. If we were to plot the number of students who commenced in each term across a period of several years, we would use a scatter plot, because the quantity being plotted (number of students) is discrete. A line plot would imply that the number of students who commenced in a particular term is different halfway through the term than it is at the start of the term. Since we've already established that students commence at the start of the term, this is plainly incorrect.
If presenting several different series of values on the same plot, then distinguish between them by making the point markers clearly different shapes. Do not rely on colour for this! There are two reasons why: Firstly, a non-trivial portion of the population are sufficiently colour-deficient that they will not be able to perceive the difference, especially between red and green; Secondly, a thesis will likely be printed in greyscale, which completely hides the colours.
Check the cross-referencing to tables and figures. I once examined a thesis where all of the cross-referencing was incorrect - the cross-references in the text referred to figures and tables that did not exist - which made the results all but impossible to interpret. If you use a package like LaTeX to write your thesis, and carefully check the error messages when compiling your document, this is not an issue. For other writing software, like MS Word, you need to be a bit more careful.
Finally, do not use the word "plot" in a caption for a plot, or "table" in the caption for a table. I know what a table is, and I know what a plot is. I don't need to be told.
Every variable in an equation should be defined somewhere, ideally following the first equation in which it is used. Similarly, variables should not be re-used. A table of symbols can be helpful.
Some data sets will have hidden biases. These biases will influence any model that is built using the data and must therefore be accounted for. Remember, if you are using biased data to build a model, you will end up with a biased model.
The data must be represented in a logical way. Some models like neural networks can only handle discrete values like class labels if they are represented orthogonally.
When evaluating the accuracy of a classification model, you must give some thought to the distribution of classes in the data set. If 90 % of the data in the data set are from one class, then it is quite simple to create a model that is 90 % accurate: it just classifies every example as the most common class. A simple percentage accuracy is not, therefore, very useful for evaluating the performance of your model.
A single partitioning of data is not going to give an accurate estimate of performance of any model. The standard approach, therefore, is to cross-validate over the data set, with a separate, independent, validation set held out (note that some sources call this the test set - the name given doesn't matter, as long as you use such an independent data set). If the data set is too small to use cross-validation, then jackknife over the data set instead. Or, you can bootstrap the data. The point is, there are several different approaches that can be used to produce statistically reliable results. These approaches are so simple, and well-known, that I consider not using them to be sufficient reason to reject a thesis: the candidate plainly does not have sufficient skill in the field to qualify for a higher degree.
The set-up of experiments must be described in detail, including the parameters of any algorithms used. The goal is for all experiments to be reproducible. The description should also include reasons for selecting any particular algorithm. There is always a reason, and if a candidate can't justify their choice of algorithm, then I do wonder whether they understand the state of the art enough to qualify as a professional researcher. There is always a reason for selecting an algorithm, even if it is really "Because my supervisor told me to use it".
If the thesis is presenting a new or improved algorithm, then is must be compared to existing algorithms. The choice of algorithms compared to should be justified. It is very easy to find an algorithm that performs so badly that it makes a new algorithm look good by comparison. Be clear about why an algorithm was selected.
All results should be subjected to an appropriate statistical analysis. Statistics show us what the numbers are trying to say. Statistics allows us to separate reality from our own prejudices. A good working knowledge of statistics is, therefore, extremely important.
The thesis should interpret the results for the reader. In other words, the thesis should explicitly answer the question "What do the results mean?". This interpretation, of course, must be done within the context of the statistical analysis. The results should also be compared to the literature where possible. Don't leave this interpretation up to the examiner! The examiner might not interpret things the way that you intended.
If a viva is to be held, then the examiners' reports will be made available to the candidate well before. A viva is a way of demonstrating that the candidate really does know what they are talking about in the thesis, and that they are able to handle questions on their own. It is also an opportunity for the examiners to clarify any lingering issues from the examination. I never try to make a candidate feel uncomfortable or upset in the viva, and I don't understand examiners who do that. It is not an opportunity for an examiner to show off how clever they are, or to exercise their limited power over another person. It is the last step of the examination, and it should be carried out in a professional and collegial manner.
The Examination Process
This varies a bit according to the institution, but the general structure is the same. The process usually goes something like this:- I am asked if I am interested in examining the thesis. I usually get sent the candidate's name, the title of the thesis and the thesis abstract.
- I say "Yes, I am interested" although I occasionally say "No" if the thesis is outside of my field of expertise.
- Some time later, I receive an examination pack. This usually contains things like:
- The thesis to be examined
- Institutional guidelines for examiners
- A marking sheet, where I make my recommendation and comments
- Other forms for payment of the honorarium and tax
- I read the thesis several times, making comments on the pages each time.
- Using my comments, I write a report on the thesis and make a recommendation.
- There is sometimes an oral exam / viva held later, although more and more institutions seem to be moving away from those now.
Examiners usually get paid an honorarium, and as a New Zealand resident the honorarium I receive from a New Zealand institution has always had tax deducted from it. The size of the honorarium varies between institutions, but if you consider the time it takes to examine a thesis, it comes out at substantially less than minimum wage.
I prefer to receive the thesis as a PDF, as I find the examination process much easier when done electronically. I usually load the PDF onto my tablet, so I can get some examination work done during my daily commute on the train. When I submit my report and recommendation, I send the marked-up PDF with it.
Clarity
A thesis should be clear. Don't leave the hard mental work to the reader of the thesis! Lay everything out for them, especially why are you doing this? There is presumably a reason for doing the work you did, apart from "your supervisor told you to do it". The motivation for pursuing the research in the thesis should be laid out clearly and as early as possible.The literature review should relevant to the topic of the thesis. I don't want to have to wade through pages of literature review that don't have anything to do with the thesis. Or, to put it another, way, don't "stuff" your literature review, it just annoys the examiner. A good question to ask about any part of the literature review is "why is this in the thesis?".
The literature review should be to-the-point. Anyone examining the thesis will have been carefully chosen and they will be experts in the field. Spending pages reviewing or describing material that a third-year student in the field should know is a waste of time and space. Better to just cite the key relevant papers and move on.
The literature review should also be critical. What are the holes in the literature? What is wrong with what has been previously published? What could have been done better? The work in a thesis should build upon what has gone before, it is incredibly rare that a thesis introduces an entirely new field.
If a thesis isn't clear, then it won't pass the examination. If you're lucky, then the examiner will give you enough detail to fix it and another examination. If not, then you will fail.
Citations
Any statement that is made should be backed up by data, or logical argument, or citation. In a thesis, most statements will be backed up by citation. This is especially true of the literature review.Citations should be formatted correctly. Citations that are in-text are usually done something like (Smith, 1999). When the citation is referred to directly, it is something like "as in Smith (1999)". This is also the form used when the citation leads the sentence, for example "Smith (1999) said that...". While most authors nowadays will be using reference-management software, you should know how to use the software and not rely on the defaults.
This might seem like a small thing, but every time a reader comes across an incorrectly-formatted citation, it can break the flow of their reading. Break the flow of reading enough and the reader gets frustrated. That's not what you want when the reader is an examiner with the power to make the last three (or more) years of your life irrelevant.
Typos
Typos are a fact of life. Everyone makes mistakes while writing, but there are some things you can do to reduce the number of mistakes that make it through to the examiner.Firstly, use a spell-checker. These are so straightforward to use now that there is no excuse for any incorrectly spelt words to appear in a thesis that is going for examination. However, relying on a spell-checker is also dangerous. Spell-checkers only tell you if a word is spelt incorrectly, they won't tell you if they are the wrong word to use. So, proof-reading is still essential.
Grammatical errors should also be checked for. While English has its quirks, these quirks must be known and dealt with. Small errors in grammar can completely change the meaning of a sentence. A common error is using incorrect tenses. For example, experiments reported in the thesis have been done, they are in the past, so use the past tense to refer to them.
Tables and Figures
Tables and figures are one of the most effective ways of presenting data, provided they are used appropriately and carefully. There are some common mistakes that you must avoid in tables and figures.Firstly, do not use unnecessary precision in a table. If the table is presenting the area of city blocks, then presenting areas to the square millimetre is excessively precise.
Secondly, every column at least should be labelled. There are exceptions, of course, but it is important to consider whether the table could be understood without the labels. The rows and tables should also be in a logical structure, with related values grouped together.
The caption of a table or figure should be stand-alone, and should explain what the table or figure is showing. For tables, that means that column labels need to be described or defined. That is, the reader should be able to interpret the table or figure without having to refer to the main text of the work. This is because a table or figure often ends up being displayed on a different page to the explanation of the table, and having to flip back-and-forth between pages while trying to understand presented data is annoying. This can lead to some long captions.
For plots of data, be careful with legends and labels. These should be informative, not just some default like "x" on the x-axis. Again, the goal is clarity, as the purpose of a plot is to communicate to the reader.
There is, in my opinion, almost no situation under which a 3D plot makes sense. The 3D bar-charts in MS Excel are particularly bad and should not be used under any circumstances. 3D plots serve no purpose other than to show that the author knows how to make them. They do not make data clearer, but they are harder to accurately interpret.
Do not use line plots for discrete data. For example, a school has three terms per year, and students may commence their studies at the start of any of the terms. If we were to plot the number of students who commenced in each term across a period of several years, we would use a scatter plot, because the quantity being plotted (number of students) is discrete. A line plot would imply that the number of students who commenced in a particular term is different halfway through the term than it is at the start of the term. Since we've already established that students commence at the start of the term, this is plainly incorrect.
If presenting several different series of values on the same plot, then distinguish between them by making the point markers clearly different shapes. Do not rely on colour for this! There are two reasons why: Firstly, a non-trivial portion of the population are sufficiently colour-deficient that they will not be able to perceive the difference, especially between red and green; Secondly, a thesis will likely be printed in greyscale, which completely hides the colours.
Check the cross-referencing to tables and figures. I once examined a thesis where all of the cross-referencing was incorrect - the cross-references in the text referred to figures and tables that did not exist - which made the results all but impossible to interpret. If you use a package like LaTeX to write your thesis, and carefully check the error messages when compiling your document, this is not an issue. For other writing software, like MS Word, you need to be a bit more careful.
Finally, do not use the word "plot" in a caption for a plot, or "table" in the caption for a table. I know what a table is, and I know what a plot is. I don't need to be told.
Equations
Used properly, equations are an effective way of communicating complex concepts. It is very easy for equations to become opaque and uninformative. To avoid this, equations must be laid out carefully and consistently. Again LaTeX is good for this kind of thing, its equation tools are very powerful.Every variable in an equation should be defined somewhere, ideally following the first equation in which it is used. Similarly, variables should not be re-used. A table of symbols can be helpful.
Experiments
You must understand your data. What process created it? What are the variables? What do the variables mean? What are the ranges of the variables? What are the scales of the variables? Are they nominal, ordinal, interval? Remember, just because something is expressed as a number, doesn't mean you can do arithmetic with it. Some statistics are invalid for some kinds of data, so a working knowledge of measurement theory and statistics is essential.Some data sets will have hidden biases. These biases will influence any model that is built using the data and must therefore be accounted for. Remember, if you are using biased data to build a model, you will end up with a biased model.
The data must be represented in a logical way. Some models like neural networks can only handle discrete values like class labels if they are represented orthogonally.
When evaluating the accuracy of a classification model, you must give some thought to the distribution of classes in the data set. If 90 % of the data in the data set are from one class, then it is quite simple to create a model that is 90 % accurate: it just classifies every example as the most common class. A simple percentage accuracy is not, therefore, very useful for evaluating the performance of your model.
A single partitioning of data is not going to give an accurate estimate of performance of any model. The standard approach, therefore, is to cross-validate over the data set, with a separate, independent, validation set held out (note that some sources call this the test set - the name given doesn't matter, as long as you use such an independent data set). If the data set is too small to use cross-validation, then jackknife over the data set instead. Or, you can bootstrap the data. The point is, there are several different approaches that can be used to produce statistically reliable results. These approaches are so simple, and well-known, that I consider not using them to be sufficient reason to reject a thesis: the candidate plainly does not have sufficient skill in the field to qualify for a higher degree.
The set-up of experiments must be described in detail, including the parameters of any algorithms used. The goal is for all experiments to be reproducible. The description should also include reasons for selecting any particular algorithm. There is always a reason, and if a candidate can't justify their choice of algorithm, then I do wonder whether they understand the state of the art enough to qualify as a professional researcher. There is always a reason for selecting an algorithm, even if it is really "Because my supervisor told me to use it".
If the thesis is presenting a new or improved algorithm, then is must be compared to existing algorithms. The choice of algorithms compared to should be justified. It is very easy to find an algorithm that performs so badly that it makes a new algorithm look good by comparison. Be clear about why an algorithm was selected.
All results should be subjected to an appropriate statistical analysis. Statistics show us what the numbers are trying to say. Statistics allows us to separate reality from our own prejudices. A good working knowledge of statistics is, therefore, extremely important.
The thesis should interpret the results for the reader. In other words, the thesis should explicitly answer the question "What do the results mean?". This interpretation, of course, must be done within the context of the statistical analysis. The results should also be compared to the literature where possible. Don't leave this interpretation up to the examiner! The examiner might not interpret things the way that you intended.
Response
When the examiners' reports are received by the institution, they will be collated and made available to the candidate. The candidate always has a right of response. Don't be afraid to disagree with an examiner! Examiners are human, they make mistakes, or they might have missed something in the literature. If a candidate does disagree, however, then they should have a solid justification for disagreeing. The candidate will have to convince the examiner that they were mistaken, that means using facts or logical argument. Personally, I am quite prepared to be proven wrong on anything I write in an examiner's report. But I will only be swayed by a convincing, well-reasoned argument based on either logic or data. If a candidate tries to bullsh*t me, then I will not react well.If a viva is to be held, then the examiners' reports will be made available to the candidate well before. A viva is a way of demonstrating that the candidate really does know what they are talking about in the thesis, and that they are able to handle questions on their own. It is also an opportunity for the examiners to clarify any lingering issues from the examination. I never try to make a candidate feel uncomfortable or upset in the viva, and I don't understand examiners who do that. It is not an opportunity for an examiner to show off how clever they are, or to exercise their limited power over another person. It is the last step of the examination, and it should be carried out in a professional and collegial manner.
Summary
A postgraduate degree represents a substantial investment of time and effort on the part of the candidate and their supervisor. It behooves all involved in that process to minimise the chances that the effort will be wasted. Putting in the effort to avoid the common issues I have identified above will help to achieve this.Monday, October 10, 2016
IEEE Transactions on Evolutionary Computation, Volume 20, Issue 5, October 2016
1. Pareto or Non-Pareto: Bi-Criterion Evolution in Multiobjective Optimization
Author(s): Miqing Li; Shengxiang Yang; Xiaohui Liu
Page(s): 645 - 665
2. An Analysis of the Inertia Weight Parameter for Binary Particle Swarm Optimization
Author(s): Jianhua Liu; Yi Mei; Xiaodong Li
Page(s): 666 - 681
3. Algebraic Differential Evolution Algorithm for the Permutation Flowshop Scheduling Problem With Total Flowtime Criterion
Author(s): Valentino Santucci; Marco Baioletti; Alfredo Milani
Page(s): 682 - 694
4. Kuhn–Munkres Parallel Genetic Algorithm for the Set Cover Problem and Its Application to Large-Scale Wireless Sensor Networks
Author(s): Xin-Yuan Zhang; Jun Zhang; Yue-Jiao Gong; Zhi-Hui Zhan; Wei-Neng Chen; Yun Li
Page(s): 695 - 710
5. A Hybrid Evolutionary Immune Algorithm for Multiobjective Optimization Problems
Author(s): Qiuzhen Lin; Jianyong Chen; Zhi-Hui Zhan; Wei-Neng Chen; Carlos A. Coello Coello; Yilong Yin; Chih-Min Lin; Jun Zhang
Page(s): 711 - 729
6. Metaheuristics for Specialization of a Segmentation Algorithm for Ultrasound Images
Author(s): Francesco Rogai; Claudia Manfredi; Leonardo Bocchi
Page(s): 730 - 741
7. On Routine Evolution of Complex Cellular Automata
Author(s): Michal Bidlo
Page(s): 742 - 754
8. Objective Extraction for Many-Objective Optimization Problems: Algorithm and Test Problems
Author(s): Yiu-ming Cheung; Fangqing Gu; Hai-Lin Liu
Page(s): 755 - 772
9. A Reference Vector Guided Evolutionary Algorithm for Many-Objective Optimization
Author(s): Ran Cheng; Yaochu Jin; Markus Olhofer; Bernhard Sendhoff
Page(s): 773 - 791
10. A Self-Organizing Multiobjective Evolutionary Algorithm
Author(s): Hu Zhang; Aimin Zhou; Shenmin Song; Qingfu Zhang; Xiao-Zhi Gao; Jun Zhang
Page(s): 792 - 806
11. Pareto Fronts of Many-Objective Degenerate Test Problems
Author(s): Hisao Ishibuchi; Hiroyuki Masuda; Yusuke Nojima
Page(s): 807 - 813
12. Stability Analysis of the Particle Swarm Optimization Without Stagnation Assumption
Author(s): Mohammad Reza Bonyadi; Zbigniew Michalewicz
Page(s): 814 - 819
Author(s): Miqing Li; Shengxiang Yang; Xiaohui Liu
Page(s): 645 - 665
2. An Analysis of the Inertia Weight Parameter for Binary Particle Swarm Optimization
Author(s): Jianhua Liu; Yi Mei; Xiaodong Li
Page(s): 666 - 681
3. Algebraic Differential Evolution Algorithm for the Permutation Flowshop Scheduling Problem With Total Flowtime Criterion
Author(s): Valentino Santucci; Marco Baioletti; Alfredo Milani
Page(s): 682 - 694
4. Kuhn–Munkres Parallel Genetic Algorithm for the Set Cover Problem and Its Application to Large-Scale Wireless Sensor Networks
Author(s): Xin-Yuan Zhang; Jun Zhang; Yue-Jiao Gong; Zhi-Hui Zhan; Wei-Neng Chen; Yun Li
Page(s): 695 - 710
5. A Hybrid Evolutionary Immune Algorithm for Multiobjective Optimization Problems
Author(s): Qiuzhen Lin; Jianyong Chen; Zhi-Hui Zhan; Wei-Neng Chen; Carlos A. Coello Coello; Yilong Yin; Chih-Min Lin; Jun Zhang
Page(s): 711 - 729
6. Metaheuristics for Specialization of a Segmentation Algorithm for Ultrasound Images
Author(s): Francesco Rogai; Claudia Manfredi; Leonardo Bocchi
Page(s): 730 - 741
7. On Routine Evolution of Complex Cellular Automata
Author(s): Michal Bidlo
Page(s): 742 - 754
8. Objective Extraction for Many-Objective Optimization Problems: Algorithm and Test Problems
Author(s): Yiu-ming Cheung; Fangqing Gu; Hai-Lin Liu
Page(s): 755 - 772
9. A Reference Vector Guided Evolutionary Algorithm for Many-Objective Optimization
Author(s): Ran Cheng; Yaochu Jin; Markus Olhofer; Bernhard Sendhoff
Page(s): 773 - 791
10. A Self-Organizing Multiobjective Evolutionary Algorithm
Author(s): Hu Zhang; Aimin Zhou; Shenmin Song; Qingfu Zhang; Xiao-Zhi Gao; Jun Zhang
Page(s): 792 - 806
11. Pareto Fronts of Many-Objective Degenerate Test Problems
Author(s): Hisao Ishibuchi; Hiroyuki Masuda; Yusuke Nojima
Page(s): 807 - 813
12. Stability Analysis of the Particle Swarm Optimization Without Stagnation Assumption
Author(s): Mohammad Reza Bonyadi; Zbigniew Michalewicz
Page(s): 814 - 819
IEEE Transactions on Fuzzy Systems, Volume 24, Issue 5
1. On Pythagorean and Complex Fuzzy Set Operations
Author(s): Scott Dick; Ronald R. Yager; Omolbanin Yazdanbakhsh
Page(s): 1009 - 1021
2. Classification of Type-2 Fuzzy Sets Represented as Sequences of Vertical Slices
Author(s): Lorenzo Livi; Hooman Tahayori; Antonello Rizzi; Alireza Sadeghian; Witold Pedrycz
Page(s): 1022 - 1034
3. Power Average of Trapezoidal Intuitionistic Fuzzy Numbers Using Strict t-Norms and t-Conorms
Author(s): Shu-Ping Wan; Zhi-Hong Yi
Page(s): 1035 - 1047
4. Aperiodic Sampled-Data Sliding-Mode Control of Fuzzy Systems With Communication Delays Via the Event-Triggered Method
Author(s): Shiping Wen; Tingwen Huang; Xinghuo Yu; Michael Z. Q. Chen; Zhigang Zeng
Page(s): 1048 - 1057
5. Fault Detection and Isolation for Affine Fuzzy Systems With Sensor Faults
Author(s): Huimin Wang; Guang-Hong Yang; Dan Ye
Page(s): 1058 - 1071
6. Knowledge Measure for Atanassov's Intuitionistic Fuzzy Sets
Author(s): Kaihong Guo
Page(s): 1072 - 1078
7. Takagi–Sugeno–Kang Transfer Learning Fuzzy Logic System for the Adaptive Recognition of Epileptic Electroencephalogram Signals
Author(s): Changjian Yang; Zhaohong Deng; Kup-Sze Choi; Shitong Wang
Page(s): 1079 - 1094
8. A Survey of Adaptive Fuzzy Controllers: Nonlinearities and Classifications
Author(s): Meng Joo Er; Sayantan Mandal
Page(s): 1095 - 1107
9. Optimal Design of Constraint-Following Control for Fuzzy Mechanical Systems
Author(s): Ruiying Zhao; Ye-Hwa Chen; Shengjie Jiao
Page(s): 1108 - 1120
10. Multiscale Opening of Conjoined Fuzzy Objects: Theory and Applications
Author(s): Punam K. Saha; Subhadip Basu; Eric A. Hoffman
Page(s): 1121 - 1133
11. Decentralized State Feedback Control of Uncertain Affine Fuzzy Large-Scale Systems With Unknown Interconnections
Author(s): Huimin Wang; Guang-Hong Yang
Page(s): 1134 - 1146
12. Fuzzy Adaptive Control With State Observer for a Class of Nonlinear Discrete-Time Systems With Input Constraint
Author(s): Yan-Jun Liu; Shaocheng Tong; Dong-Juan Li; Ying Gao
Page(s): 1147 - 1158
13. Fuzzy-Based Goal Representation Adaptive Dynamic Programming
Author(s): Yufei Tang; Haibo He; Zhen Ni; Xiangnan Zhong; Dongbin Zhao; Xin Xu
Page(s): 1159 - 1175
14. Nonparametric Statistical Active Contour Based on Inclusion Degree of Fuzzy Sets
Author(s): Maoguo Gong; Hao Li; Xiang Zhang; Qiunan Zhao; Bin Wang
Page(s): 1176 - 1192
15. The Role of Crisp Elements in Fuzzy Ontologies: The Case of Fuzzy OWL 2 EL
Author(s): Fernando Bobillo
Page(s): 1193 - 1209
16. Transfer Prototype-Based Fuzzy Clustering
Author(s): Zhaohong Deng; Yizhang Jiang; Fu-Lai Chung; Hisao Ishibuchi; Kup-Sze Choi; Shitong Wang
Page(s): 1210 - 1232
17. Observer-Based Fuzzy Control for Nonlinear Networked Systems Under Unmeasurable Premise Variables
Author(s): Hongyi Li; Chengwei Wu; Shen Yin; Hak-Keung Lam
Page(s): 1233 - 1245
18. Adaptive Fuzzy Hysteresis Internal Model Tracking Control of Piezoelectric Actuators With Nanoscale Application
Author(s): Pengzhi Li; Peiyue Li; Yongxin Sui
Page(s): 1246 - 1254
Author(s): Scott Dick; Ronald R. Yager; Omolbanin Yazdanbakhsh
Page(s): 1009 - 1021
2. Classification of Type-2 Fuzzy Sets Represented as Sequences of Vertical Slices
Author(s): Lorenzo Livi; Hooman Tahayori; Antonello Rizzi; Alireza Sadeghian; Witold Pedrycz
Page(s): 1022 - 1034
3. Power Average of Trapezoidal Intuitionistic Fuzzy Numbers Using Strict t-Norms and t-Conorms
Author(s): Shu-Ping Wan; Zhi-Hong Yi
Page(s): 1035 - 1047
4. Aperiodic Sampled-Data Sliding-Mode Control of Fuzzy Systems With Communication Delays Via the Event-Triggered Method
Author(s): Shiping Wen; Tingwen Huang; Xinghuo Yu; Michael Z. Q. Chen; Zhigang Zeng
Page(s): 1048 - 1057
5. Fault Detection and Isolation for Affine Fuzzy Systems With Sensor Faults
Author(s): Huimin Wang; Guang-Hong Yang; Dan Ye
Page(s): 1058 - 1071
6. Knowledge Measure for Atanassov's Intuitionistic Fuzzy Sets
Author(s): Kaihong Guo
Page(s): 1072 - 1078
7. Takagi–Sugeno–Kang Transfer Learning Fuzzy Logic System for the Adaptive Recognition of Epileptic Electroencephalogram Signals
Author(s): Changjian Yang; Zhaohong Deng; Kup-Sze Choi; Shitong Wang
Page(s): 1079 - 1094
8. A Survey of Adaptive Fuzzy Controllers: Nonlinearities and Classifications
Author(s): Meng Joo Er; Sayantan Mandal
Page(s): 1095 - 1107
9. Optimal Design of Constraint-Following Control for Fuzzy Mechanical Systems
Author(s): Ruiying Zhao; Ye-Hwa Chen; Shengjie Jiao
Page(s): 1108 - 1120
10. Multiscale Opening of Conjoined Fuzzy Objects: Theory and Applications
Author(s): Punam K. Saha; Subhadip Basu; Eric A. Hoffman
Page(s): 1121 - 1133
11. Decentralized State Feedback Control of Uncertain Affine Fuzzy Large-Scale Systems With Unknown Interconnections
Author(s): Huimin Wang; Guang-Hong Yang
Page(s): 1134 - 1146
12. Fuzzy Adaptive Control With State Observer for a Class of Nonlinear Discrete-Time Systems With Input Constraint
Author(s): Yan-Jun Liu; Shaocheng Tong; Dong-Juan Li; Ying Gao
Page(s): 1147 - 1158
13. Fuzzy-Based Goal Representation Adaptive Dynamic Programming
Author(s): Yufei Tang; Haibo He; Zhen Ni; Xiangnan Zhong; Dongbin Zhao; Xin Xu
Page(s): 1159 - 1175
14. Nonparametric Statistical Active Contour Based on Inclusion Degree of Fuzzy Sets
Author(s): Maoguo Gong; Hao Li; Xiang Zhang; Qiunan Zhao; Bin Wang
Page(s): 1176 - 1192
15. The Role of Crisp Elements in Fuzzy Ontologies: The Case of Fuzzy OWL 2 EL
Author(s): Fernando Bobillo
Page(s): 1193 - 1209
16. Transfer Prototype-Based Fuzzy Clustering
Author(s): Zhaohong Deng; Yizhang Jiang; Fu-Lai Chung; Hisao Ishibuchi; Kup-Sze Choi; Shitong Wang
Page(s): 1210 - 1232
17. Observer-Based Fuzzy Control for Nonlinear Networked Systems Under Unmeasurable Premise Variables
Author(s): Hongyi Li; Chengwei Wu; Shen Yin; Hak-Keung Lam
Page(s): 1233 - 1245
18. Adaptive Fuzzy Hysteresis Internal Model Tracking Control of Piezoelectric Actuators With Nanoscale Application
Author(s): Pengzhi Li; Peiyue Li; Yongxin Sui
Page(s): 1246 - 1254
Monday, October 3, 2016
Neural Networks Volume 83, Pages 1-120, November 2016
1. Simbrain 3.0: A flexible, visually-oriented neural network simulator
Author(s): Zachary Tosi, Jeffrey Yoshimi
Pages: 1-10
2. Relating observability and compressed sensing of time-varying signals in recurrent linear networks
Author(s): Mohammad Mehdi Kafashan, Anirban Nandi, ShiNung Ching
Pages: 11-20
3. Rank-based pooling for deep convolutional neural networks
Author(s): Zenglin Shi, Yangdong Ye, Yunpeng Wu
Pages: 21-31
4. Stability analysis for uncertain switched neural networks with time-varying delay
Author(s): Wenwen Shen, Zhigang Zeng, Leimin Wang
Pages: 32-41
5. Massively parallel WRNN reconstructors for spectrum recovery in astronomical photometrical surveys
Author(s): Christian Napoli, Emiliano Tramontana
Pages: 42-50
6. A theory of local learning, the learning channel, and the optimality of backpropagation
Author(s): Pierre Baldi, Peter Sadowski
Pages: 51-74
7. Approximate Bayesian MLP regularization for regression in the presence of noise
Author(s): Jung-Guk Park, Sungho Jo
Pages: 75-85
8. Synchronization of Markovian jumping inertial neural networks and its applications in image encryption
Author(s): M. Prakash, P. Balasubramaniam, S. Lakshmanan
Pages: 86-93
9. Implementation of Imitation Learning using Natural Learner Central Pattern Generator Neural Networks
Author(s): Hamed Shahbazi, Reyhaneh Parandeh, Kamal Jamshidi
Pages: 94-108
10. Computational analysis of memory capacity in echo state networks
Author(s): Igor Farkaš, Radomír Bosák, Peter Gergeľ
Pages: 109-120
Author(s): Zachary Tosi, Jeffrey Yoshimi
Pages: 1-10
2. Relating observability and compressed sensing of time-varying signals in recurrent linear networks
Author(s): Mohammad Mehdi Kafashan, Anirban Nandi, ShiNung Ching
Pages: 11-20
3. Rank-based pooling for deep convolutional neural networks
Author(s): Zenglin Shi, Yangdong Ye, Yunpeng Wu
Pages: 21-31
4. Stability analysis for uncertain switched neural networks with time-varying delay
Author(s): Wenwen Shen, Zhigang Zeng, Leimin Wang
Pages: 32-41
5. Massively parallel WRNN reconstructors for spectrum recovery in astronomical photometrical surveys
Author(s): Christian Napoli, Emiliano Tramontana
Pages: 42-50
6. A theory of local learning, the learning channel, and the optimality of backpropagation
Author(s): Pierre Baldi, Peter Sadowski
Pages: 51-74
7. Approximate Bayesian MLP regularization for regression in the presence of noise
Author(s): Jung-Guk Park, Sungho Jo
Pages: 75-85
8. Synchronization of Markovian jumping inertial neural networks and its applications in image encryption
Author(s): M. Prakash, P. Balasubramaniam, S. Lakshmanan
Pages: 86-93
9. Implementation of Imitation Learning using Natural Learner Central Pattern Generator Neural Networks
Author(s): Hamed Shahbazi, Reyhaneh Parandeh, Kamal Jamshidi
Pages: 94-108
10. Computational analysis of memory capacity in echo state networks
Author(s): Igor Farkaš, Radomír Bosák, Peter Gergeľ
Pages: 109-120
IEEE Transactions on Neural Networks and Learning Systems, Volume 27, Issue 10, October 2016
1. Why Deep Learning Works: A Manifold Disentanglement Perspective
Author(s): Pratik Prabhanjan Brahma; Dapeng Wu; Yiyuan She
Page(s): 1997 - 2008
2. Feedback Solution to Optimal Switching Problems With Switching Cost
Authors: Ali Heydari
Page(s): 2009 - 2019
3. Geometric Bioinspired Networks for Recognition of 2-D and 3-D Low-Level Structures and Transformations Metrics by Information Projection
Authors: Eduardo Bayro-Corrochano; Eduardo Vazquez-Santacruz; Eduardo Moya-Sanchez; Efrain Castillo-Muñis
Page(s): 2020 - 2034
4. Classifying Stress From Heart Rate Variability Using Salivary Biomarkers as Reference
Authors: Wei Shiung Liew; Manjeevan Seera; Chu Kiong Loo; Einly Lim; Naoyuki Kubota
Page(s): 2035 - 2046
5. Space Structure and Clustering of Categorical Data
Authors: Yuhua Qian; Feijiang Li; Jiye Liang; Bing Liu; Chuangyin Dang
Page(s): 2047 - 2059
6. Kohonen’s Map Approach for the Belief Mass Modeling
Authors: Imen Hammami; Grégoire Mercier; Atef Hamouda; Jean Dezert
Page(s): 2060 - 2071
7. Multiple Ordinal Regression by Maximizing the Sum of Margins
Authors: Onur C. Hamsici; Aleix M. Martinez
Page(s): 2072 - 2083
8. Adaptive Filter Design Using Type-2 Fuzzy Cerebellar Model Articulation Controller
Authors: Chih-Min Lin; Ming-Shu Yang; Fei Chao; Xiao-Min Hu; Jun Zhang
Page(s): 2084 - 2094
9. Directional Clustering Through Matrix Factorization
Authors: Thomas Blumensath
Page(s): 2095 - 2107
10. Learning With Jensen-Tsallis Kernels
Authors: Debarghya Ghoshdastidar; Ajay P. Adsul; Ambedkar Dukkipati
Page(s): 2108 - 2119
11. Tensor LRR and Sparse Coding-Based Subspace Clustering
Authors: Yifan Fu; Junbin Gao; David Tien; Zhouchen Lin; Xia Hong
Page(s): 2120 - 2133
12. Model-Free Optimal Tracking Control via Critic-Only Q-Learning
Authors: Biao Luo; Derong Liu; Tingwen Huang; Ding Wang
Page(s): 2134 - 2144
Author(s): Pratik Prabhanjan Brahma; Dapeng Wu; Yiyuan She
Page(s): 1997 - 2008
2. Feedback Solution to Optimal Switching Problems With Switching Cost
Authors: Ali Heydari
Page(s): 2009 - 2019
3. Geometric Bioinspired Networks for Recognition of 2-D and 3-D Low-Level Structures and Transformations Metrics by Information Projection
Authors: Eduardo Bayro-Corrochano; Eduardo Vazquez-Santacruz; Eduardo Moya-Sanchez; Efrain Castillo-Muñis
Page(s): 2020 - 2034
4. Classifying Stress From Heart Rate Variability Using Salivary Biomarkers as Reference
Authors: Wei Shiung Liew; Manjeevan Seera; Chu Kiong Loo; Einly Lim; Naoyuki Kubota
Page(s): 2035 - 2046
5. Space Structure and Clustering of Categorical Data
Authors: Yuhua Qian; Feijiang Li; Jiye Liang; Bing Liu; Chuangyin Dang
Page(s): 2047 - 2059
6. Kohonen’s Map Approach for the Belief Mass Modeling
Authors: Imen Hammami; Grégoire Mercier; Atef Hamouda; Jean Dezert
Page(s): 2060 - 2071
7. Multiple Ordinal Regression by Maximizing the Sum of Margins
Authors: Onur C. Hamsici; Aleix M. Martinez
Page(s): 2072 - 2083
8. Adaptive Filter Design Using Type-2 Fuzzy Cerebellar Model Articulation Controller
Authors: Chih-Min Lin; Ming-Shu Yang; Fei Chao; Xiao-Min Hu; Jun Zhang
Page(s): 2084 - 2094
9. Directional Clustering Through Matrix Factorization
Authors: Thomas Blumensath
Page(s): 2095 - 2107
10. Learning With Jensen-Tsallis Kernels
Authors: Debarghya Ghoshdastidar; Ajay P. Adsul; Ambedkar Dukkipati
Page(s): 2108 - 2119
11. Tensor LRR and Sparse Coding-Based Subspace Clustering
Authors: Yifan Fu; Junbin Gao; David Tien; Zhouchen Lin; Xia Hong
Page(s): 2120 - 2133
12. Model-Free Optimal Tracking Control via Critic-Only Q-Learning
Authors: Biao Luo; Derong Liu; Tingwen Huang; Ding Wang
Page(s): 2134 - 2144
Thursday, September 22, 2016
IEEE Transactions on Cognitive and Developmental Systems, Vol. 8, No. 3, September 2016
1) Emergence of Altruistic Behavior Through the Minimization of Prediction Error
Author(s): Jimmy Baraglia; Yukie Nagai; Minoru Asada
Pages: 141-151
2) Interplay of Rhythmic and Discrete Manipulation Movements During Development: A Policy-Search Reinforcement-Learning Robot Model
Author(s): Valentina Cristina Meola; Daniele Caligiore; Valerio Sperati; Loredana Zollo; Anna Lisa Ciancio; Fabrizio Taffoni; Eugenio Guglielmelli; Gianluca Baldassarre
Pages: 152-170
3) Nonparametric Bayesian Double Articulation Analyzer for Direct Language Acquisition From Continuous Speech Signals
Author(s): Tadahiro Taniguchi; Shogo Nagasaka; Ryo Nakashima
Pages: 171-185
4) Evolutionary Fuzzy Integral-Based Gaze Control With Preference of Human Gaze
Author(s): Bum-Soo Yoo; Jong-Hwan Kim
Pages: 186-200
5) Lifelong Augmentation of Multimodal Streaming Autobiographical Memories
Author(s): Maxime Petit; Tobias Fischer; Yiannis Demiris
Pages: 201-213
6) GRAIL: A Goal-Discovering Robotic Architecture for Intrinsically-Motivated Learning
Author(s): Vieri Giuliano Santucci; Gianluca Baldassarre; Marco Mirolli
Pages: 214-231
Author(s): Jimmy Baraglia; Yukie Nagai; Minoru Asada
Pages: 141-151
2) Interplay of Rhythmic and Discrete Manipulation Movements During Development: A Policy-Search Reinforcement-Learning Robot Model
Author(s): Valentina Cristina Meola; Daniele Caligiore; Valerio Sperati; Loredana Zollo; Anna Lisa Ciancio; Fabrizio Taffoni; Eugenio Guglielmelli; Gianluca Baldassarre
Pages: 152-170
3) Nonparametric Bayesian Double Articulation Analyzer for Direct Language Acquisition From Continuous Speech Signals
Author(s): Tadahiro Taniguchi; Shogo Nagasaka; Ryo Nakashima
Pages: 171-185
4) Evolutionary Fuzzy Integral-Based Gaze Control With Preference of Human Gaze
Author(s): Bum-Soo Yoo; Jong-Hwan Kim
Pages: 186-200
5) Lifelong Augmentation of Multimodal Streaming Autobiographical Memories
Author(s): Maxime Petit; Tobias Fischer; Yiannis Demiris
Pages: 201-213
6) GRAIL: A Goal-Discovering Robotic Architecture for Intrinsically-Motivated Learning
Author(s): Vieri Giuliano Santucci; Gianluca Baldassarre; Marco Mirolli
Pages: 214-231
Neural Networks Volume 82, Pages: 1-100, October 2016
1) Micro-level dynamics of the online information propagation: A user behavior model based on noisy spiking neurons
Pages: 1-29
Author(s): Ilias N. Lymperopoulos, George D. Ioannou
2) A new EEG synchronization strength analysis method: S-estimator based normalized weighted-permutation mutual information
Pages: 30-38
Author(s): Dong Cui, Weiting Pu, Jing Liu, Zhijie Bian, Qiuli Li, Lei Wang, Guanghua Gu
3) Event-triggered image filter design for delayed neural network with quantization
Pages: 39-48
Author(s): Jinliang Liu, Jia Tang, Shumin Fei
4) Boundedness and convergence analysis of weight elimination for cyclic training of neural networks
Pages: 49-61
Author(s): Jian Wang, Zhenyun Ye, Weifeng Gao, Jacek M. Zurada
5) A local Vapnik–Chervonenkis complexity
Pages: 62-75
Author(s): Luca Oneto, Davide Anguita, Sandro Ridella
6) Global oscillation regime change by gated inhibition
Pages: 76-83
Author(s): August Romeo, Hans Supèr
7) Stability analysis of switched cellular neural networks: A mode-dependent average dwell time approach
Pages: 84-99
Author(s): Chuangxia Huang, Jie Cao, Jinde Cao
Pages: 1-29
Author(s): Ilias N. Lymperopoulos, George D. Ioannou
2) A new EEG synchronization strength analysis method: S-estimator based normalized weighted-permutation mutual information
Pages: 30-38
Author(s): Dong Cui, Weiting Pu, Jing Liu, Zhijie Bian, Qiuli Li, Lei Wang, Guanghua Gu
3) Event-triggered image filter design for delayed neural network with quantization
Pages: 39-48
Author(s): Jinliang Liu, Jia Tang, Shumin Fei
4) Boundedness and convergence analysis of weight elimination for cyclic training of neural networks
Pages: 49-61
Author(s): Jian Wang, Zhenyun Ye, Weifeng Gao, Jacek M. Zurada
5) A local Vapnik–Chervonenkis complexity
Pages: 62-75
Author(s): Luca Oneto, Davide Anguita, Sandro Ridella
6) Global oscillation regime change by gated inhibition
Pages: 76-83
Author(s): August Romeo, Hans Supèr
7) Stability analysis of switched cellular neural networks: A mode-dependent average dwell time approach
Pages: 84-99
Author(s): Chuangxia Huang, Jie Cao, Jinde Cao
Monday, September 12, 2016
IEEE Transactions on Fuzzy Systems, Voume 24, Issue 4, 2016
1. Modeling Fuzzy and Interval Fuzzy Preferences Within a Graph Model Framework
Author(s): M. Abul Bashar; Amer Obeidi; D. Marc Kilgour; Keith W. Hipel
Page(s): 765- 778
2. Privacy-Protected Facial Biometric Verification Using Fuzzy Forest Learning
Author(s): Richard Jiang; Ahmed Bouridane; Danny Crookes; M. Emre Celebi; Hua-Liang Wei
Page(s): 779- 790
3. A Novel Adaptive Possibilistic Clustering Algorithm
Author(s): Spyridoula D. Xenaki; Konstantinos D. Koutroumbas; Athanasios A. Rontogiannis
Page(s): 791- 810
4. On Viewing Fuzzy Measures as Fuzzy Subsets
Author(s): Ronald R. Yager
Page(s): 811- 818
5. Linear–Quadratic Uncertain Differential Game With Application to Resource Extraction Problem
Author(s): Xiangfeng Yang; Jinwu Gao
Page(s): 819- 826
6. Distributivity of the Ordinal Sum Implications Over t-Norms and t-Conorms
Author(s): Yong Su; Wenwen Zong; Hua-Wen Liu
Page(s): 827- 840
7. Hybrid Fuzzy Adaptive Output Feedback Control Design for Uncertain MIMO Nonlinear Systems With Time-Varying Delays and Input Saturation
Author(s): Yongming Li; Shaocheng Tong; Tieshan Li
Page(s): 841- 853
8. New Formulation for Representing Higher Order TSK Fuzzy Systems
Author(s): GholamAli Heydari; AliAkbar Gharaveisi; MohammadAli Vali
Page(s): 854- 864
9. Encoding Words Into Normal Interval Type-2 Fuzzy Sets: HM Approach
Author(s): Minshen Hao; Jerry M. Mendel
Page(s): 865- 879
10. Fuzzy Opinion Networks: A Mathematical Framework for the Evolution of Opinions and Their Uncertainties Across Social Networks
Author(s): Li-Xin Wang; Jerry M. Mendel
Page(s): 880- 905
11. Fuzzy Observed-Based Adaptive Consensus Tracking Control for Second-Order Multiagent Systems With Heterogeneous Nonlinear Dynamics
Author(s): C. L. Philip Chen; Chang-E. Ren; Tao Du
Page(s): 906- 915
12. Ensembles of Fuzzy Linear Model Trees for the Identification of Multioutput Systems
Author(s): Darko Aleksovski; Juš Kocijan; Sašo Džeroski
Page(s): 916- 929
13. Discovering Fuzzy Exception and Anomalous Rules
Author(s): M. Dolores Ruiz; Daniel Sánchez; Miguel Delgado; Maria J. Martin-Bautista
Page(s): 930- 944
14. M-Estimates of Location for the Robust Central Tendency of Fuzzy Data
Author(s): Beatriz Sinova; María Ángeles Gil; Stefan Van Aelst
Page(s): 945- 956
15. Evaluating Choquet Integrals Whose Arguments are Probability Distributions
Author(s): Ronald R. Yager
Page(s): 957- 965
16. Mean-Based Fuzzy Control for a Class of MIMO Robotic Systems
Author(s): Wei-Yen Wang; Yi-Hsing Chien; Yih-Guang Leu; Chen-Chien Hsu
Page(s): 966- 980
17. On Computing the Edge-Connectivity of an Uncertain Graph
Author(s): Yuan Gao; Zhongfeng Qin
Page(s): 981- 991
18. On the Use of Fuzzy Constraints in Semisupervised Clustering
Author(s): Irene Diaz-Valenzuela; M. Amparo Vila; Maria J. Martin-Bautista
Page(s): 992- 999
19. Join and Meet Operations for Type-2 Fuzzy Sets With Nonconvex Secondary Memberships
Author(s): Gonzalo Ruiz; Hani Hagras; Héctor Pomares; Ignacio Rojas; Humberto Bustince
Page(s): 1000- 1008
Author(s): M. Abul Bashar; Amer Obeidi; D. Marc Kilgour; Keith W. Hipel
Page(s): 765- 778
2. Privacy-Protected Facial Biometric Verification Using Fuzzy Forest Learning
Author(s): Richard Jiang; Ahmed Bouridane; Danny Crookes; M. Emre Celebi; Hua-Liang Wei
Page(s): 779- 790
3. A Novel Adaptive Possibilistic Clustering Algorithm
Author(s): Spyridoula D. Xenaki; Konstantinos D. Koutroumbas; Athanasios A. Rontogiannis
Page(s): 791- 810
4. On Viewing Fuzzy Measures as Fuzzy Subsets
Author(s): Ronald R. Yager
Page(s): 811- 818
5. Linear–Quadratic Uncertain Differential Game With Application to Resource Extraction Problem
Author(s): Xiangfeng Yang; Jinwu Gao
Page(s): 819- 826
6. Distributivity of the Ordinal Sum Implications Over t-Norms and t-Conorms
Author(s): Yong Su; Wenwen Zong; Hua-Wen Liu
Page(s): 827- 840
7. Hybrid Fuzzy Adaptive Output Feedback Control Design for Uncertain MIMO Nonlinear Systems With Time-Varying Delays and Input Saturation
Author(s): Yongming Li; Shaocheng Tong; Tieshan Li
Page(s): 841- 853
8. New Formulation for Representing Higher Order TSK Fuzzy Systems
Author(s): GholamAli Heydari; AliAkbar Gharaveisi; MohammadAli Vali
Page(s): 854- 864
9. Encoding Words Into Normal Interval Type-2 Fuzzy Sets: HM Approach
Author(s): Minshen Hao; Jerry M. Mendel
Page(s): 865- 879
10. Fuzzy Opinion Networks: A Mathematical Framework for the Evolution of Opinions and Their Uncertainties Across Social Networks
Author(s): Li-Xin Wang; Jerry M. Mendel
Page(s): 880- 905
11. Fuzzy Observed-Based Adaptive Consensus Tracking Control for Second-Order Multiagent Systems With Heterogeneous Nonlinear Dynamics
Author(s): C. L. Philip Chen; Chang-E. Ren; Tao Du
Page(s): 906- 915
12. Ensembles of Fuzzy Linear Model Trees for the Identification of Multioutput Systems
Author(s): Darko Aleksovski; Juš Kocijan; Sašo Džeroski
Page(s): 916- 929
13. Discovering Fuzzy Exception and Anomalous Rules
Author(s): M. Dolores Ruiz; Daniel Sánchez; Miguel Delgado; Maria J. Martin-Bautista
Page(s): 930- 944
14. M-Estimates of Location for the Robust Central Tendency of Fuzzy Data
Author(s): Beatriz Sinova; María Ángeles Gil; Stefan Van Aelst
Page(s): 945- 956
15. Evaluating Choquet Integrals Whose Arguments are Probability Distributions
Author(s): Ronald R. Yager
Page(s): 957- 965
16. Mean-Based Fuzzy Control for a Class of MIMO Robotic Systems
Author(s): Wei-Yen Wang; Yi-Hsing Chien; Yih-Guang Leu; Chen-Chien Hsu
Page(s): 966- 980
17. On Computing the Edge-Connectivity of an Uncertain Graph
Author(s): Yuan Gao; Zhongfeng Qin
Page(s): 981- 991
18. On the Use of Fuzzy Constraints in Semisupervised Clustering
Author(s): Irene Diaz-Valenzuela; M. Amparo Vila; Maria J. Martin-Bautista
Page(s): 992- 999
19. Join and Meet Operations for Type-2 Fuzzy Sets With Nonconvex Secondary Memberships
Author(s): Gonzalo Ruiz; Hani Hagras; Héctor Pomares; Ignacio Rojas; Humberto Bustince
Page(s): 1000- 1008
IEEE Transactions on Fuzzy Systems, vol. 24, issue 3, 2016
1. Nonfragile H_{\infty } Fuzzy Filtering With Randomly Occurring Gain Variations and Channel Fadings
Author(s): Sunjie Zhang ; Zidong Wang ; Derui Ding ; Hongli Dong ; Fuad E. Alsaadi ; Tasawar Hayat
Page(s): 505- 518
2. Chain and Substitution Rules of Intuitionistic Fuzzy Calculus
Author(s): Qian Lei ; Zeshui Xu
Page(s): 519- 529
3. Extended Fuzzy Logic: Sets and Systems
Author(s): Farnaz Sabahi ; Mohammad Reza Akbarzadeh-T
Page(s): 530- 543
4. Fuzzy-Model-Based Robust H_{\infty } Design of Nonlinear Packetized Networked Control Systems
Author(s): Bin Tang ; Shiguo Peng ; Yun Zhang
Page(s): 544- 557
5. Extensions of Atanassov's Intuitionistic Fuzzy Interaction Bonferroni Means and Their Application to Multiple-Attribute Decision Making
Author(s): Yingdong He ; Zhen He
Page(s): 558- 573
6. Evolving Type-2 Fuzzy Classifier
Author(s): Mahardhika Pratama ; Jie Lu ; Guangquan Zhang
Page(s): 574- 589
7. Multicriteria Decision Making With Ordinal/Linguistic Intuitionistic Fuzzy Sets For Mobile Apps
Author(s): Ronald R. Yager
Page(s): 590- 599
8. Improving Linguistic Pairwise Comparison Consistency via Linguistic Discrete Regions
Author(s): Hengshan Zhang ; Qinghua Zheng ; Ting Liu ; Zijiang Yang ; Minnan Luo ; Yu Qu
Page(s): 600- 614
9. Law of Large Numbers for Uncertain Random Variables
Author(s): Kai Yao ; Jinwu Gao
Page(s): 615- 621
10. Output Feedback Direct Adaptive Fuzzy Controller Based on Frequency-Domain Methods
Author(s): Krzysztof Wiktorowicz
Page(s): 622- 634
11. Stability and Stabilization of Takagi–Sugeno Fuzzy Systems via Sampled-Data and State Quantized Controller
Author(s): Yajuan Liu ; S. M. Lee
Page(s): 635- 644
12. Parameterizing the Semantics of Fuzzy Attribute Implications by Systems of Isotone Galois Connections
Author(s): Vilem Vychodil
Page(s): 645- 660
13. Decentralized Sampled-Data Fuzzy Observer Design for Nonlinear Interconnected Systems
Author(s): Geun Bum Koo ; Jin Bae Park ; Young Hoon Joo
Page(s): 661- 674
14. Robust Stability Analysis and Systematic Design of Single-Input Interval Type-2 Fuzzy Logic Controllers
Author(s): Tufan Kumbasar
Page(s): 675- 694
15. Rough-Set-Theoretic Fuzzy Cues-Based Object Tracking Under Improved Particle Filter Framework
Author(s): Pojala Chiranjeevi ; Somnath Sengupta
Page(s): 695- 707
16. Fuzzy Multiobjective Modeling and Optimization for One-Shot Multiattribute Exchanges With Indivisible Demand
Author(s): Zhong-Zhong Jiang ; Zhi-Ping Fan ; W. H. Ip ; Xiaohong Chen
Page(s): 708- 723
17. Global Fuzzy Adaptive Hierarchical Path Tracking Control of a Mobile Robot With Experimental Validation
Author(s): Chih-Lyang Hwang ; Wei-Li Fang
Page(s): 724- 740
18. Asymmetric Fuzzy Preference Relations Based on the Generalized Sigmoid Scale and Their Application in Decision Making Involving Risk Appetites
Author(s): Wei Zhou ; Zeshui Xu
Page(s): 741- 756
19. Possibilistic Functional Dependencies and Their Relationship to Possibility Theory
Author(s): Sebastian Link ; Henri Prade
Page(s): 757- 763
Author(s): Sunjie Zhang ; Zidong Wang ; Derui Ding ; Hongli Dong ; Fuad E. Alsaadi ; Tasawar Hayat
Page(s): 505- 518
2. Chain and Substitution Rules of Intuitionistic Fuzzy Calculus
Author(s): Qian Lei ; Zeshui Xu
Page(s): 519- 529
3. Extended Fuzzy Logic: Sets and Systems
Author(s): Farnaz Sabahi ; Mohammad Reza Akbarzadeh-T
Page(s): 530- 543
4. Fuzzy-Model-Based Robust H_{\infty } Design of Nonlinear Packetized Networked Control Systems
Author(s): Bin Tang ; Shiguo Peng ; Yun Zhang
Page(s): 544- 557
5. Extensions of Atanassov's Intuitionistic Fuzzy Interaction Bonferroni Means and Their Application to Multiple-Attribute Decision Making
Author(s): Yingdong He ; Zhen He
Page(s): 558- 573
6. Evolving Type-2 Fuzzy Classifier
Author(s): Mahardhika Pratama ; Jie Lu ; Guangquan Zhang
Page(s): 574- 589
7. Multicriteria Decision Making With Ordinal/Linguistic Intuitionistic Fuzzy Sets For Mobile Apps
Author(s): Ronald R. Yager
Page(s): 590- 599
8. Improving Linguistic Pairwise Comparison Consistency via Linguistic Discrete Regions
Author(s): Hengshan Zhang ; Qinghua Zheng ; Ting Liu ; Zijiang Yang ; Minnan Luo ; Yu Qu
Page(s): 600- 614
9. Law of Large Numbers for Uncertain Random Variables
Author(s): Kai Yao ; Jinwu Gao
Page(s): 615- 621
10. Output Feedback Direct Adaptive Fuzzy Controller Based on Frequency-Domain Methods
Author(s): Krzysztof Wiktorowicz
Page(s): 622- 634
11. Stability and Stabilization of Takagi–Sugeno Fuzzy Systems via Sampled-Data and State Quantized Controller
Author(s): Yajuan Liu ; S. M. Lee
Page(s): 635- 644
12. Parameterizing the Semantics of Fuzzy Attribute Implications by Systems of Isotone Galois Connections
Author(s): Vilem Vychodil
Page(s): 645- 660
13. Decentralized Sampled-Data Fuzzy Observer Design for Nonlinear Interconnected Systems
Author(s): Geun Bum Koo ; Jin Bae Park ; Young Hoon Joo
Page(s): 661- 674
14. Robust Stability Analysis and Systematic Design of Single-Input Interval Type-2 Fuzzy Logic Controllers
Author(s): Tufan Kumbasar
Page(s): 675- 694
15. Rough-Set-Theoretic Fuzzy Cues-Based Object Tracking Under Improved Particle Filter Framework
Author(s): Pojala Chiranjeevi ; Somnath Sengupta
Page(s): 695- 707
16. Fuzzy Multiobjective Modeling and Optimization for One-Shot Multiattribute Exchanges With Indivisible Demand
Author(s): Zhong-Zhong Jiang ; Zhi-Ping Fan ; W. H. Ip ; Xiaohong Chen
Page(s): 708- 723
17. Global Fuzzy Adaptive Hierarchical Path Tracking Control of a Mobile Robot With Experimental Validation
Author(s): Chih-Lyang Hwang ; Wei-Li Fang
Page(s): 724- 740
18. Asymmetric Fuzzy Preference Relations Based on the Generalized Sigmoid Scale and Their Application in Decision Making Involving Risk Appetites
Author(s): Wei Zhou ; Zeshui Xu
Page(s): 741- 756
19. Possibilistic Functional Dependencies and Their Relationship to Possibility Theory
Author(s): Sebastian Link ; Henri Prade
Page(s): 757- 763
Friday, September 2, 2016
IEEE Transactions on Neural Networks and Learning Systems: Volume 27, Issue 9, September 2016
1. Near Optimal Event-Triggered Control of Nonlinear Discrete-Time Systems Using Neurodynamic Programming
Author(s): Avimanyu Sahoo; Hao Xu; Sarangapani Jagannathan
Page(s): 1801 - 1815
2. Dynamical Behavior of Delayed Reaction–Diffusion Hopfield Neural Networks Driven by Infinite Dimensional Wiener Processes
Authors: Xiao Liang; Linshan Wang; Yangfan Wang; Ruili Wang
Page(s): 1816 - 1826
3. Semisupervised Support Vector Machines With Tangent Space Intrinsic Manifold RegularizationMetrics by Information Projection
Authors: Shiliang Sun; Xijiong Xie
Page(s): 1827 - 1839
4. Efficient Implementation of the Backpropagation Algorithm in FPGAs and Microcontrollers
Authors: Francisco Ortega-Zamorano; José M. Jerez; Daniel Urda Muñoz; Rafael M. Luque-Baena; Leonardo Franco
Page(s): 1840 - 1850
5. On the Performance of Manhattan Nonnegative Matrix Factorization
Authors: Tongliang Liu; Dacheng Tao
Page(s): 1851 - 1863
6. Sequence Prediction With Sparse Distributed Hyperdimensional Coding Applied to the Analysis of Mobile Phone Use Patterns
Authors: Okko J. Räsänen; Jukka P. Saarinen
Page(s): 1878 - 1889
7. A Granular Self-Organizing Map for Clustering and Gene Selection in Microarray Data
Authors: Shubhra Sankar Ray; Avatharam Ganivada; Sankar K. Pal
Page(s): 1890 - 1906
8. Hierarchical Temporal Memory Based on Spin-Neurons and Resistive Memory for Energy-Efficient Brain-Inspired Computing
Authors: Deliang Fan; Mrigank Sharad; Abhronil Sengupta; Kaushik Roy
Page(s): 1907 - 1919
9. Image Understanding Applications of Lattice Autoassociative Memories
Authors: Manuel Graña; Darya Chyzhyk
Page(s): 1920 - 1932
10. Robust Low-Rank Tensor Recovery With Regularized Redescending M-Estimator
Authors: Yuning Yang; Yunlong Feng; Johan A. K. Suykens
Page(s): 1933 - 1946
11. Oversampling the Minority Class in the Feature Space
Authors: María Pérez-Ortiz; Pedro Antonio Gutiérrez; Peter Tino; César Hervás-Martínez
Page(s): 1947 - 1961
12. Adaptive Neural Control for a Class of Pure-Feedback Nonlinear Systems via Dynamic Surface Technique
Authors: Zongcheng Liu; Xinmin Dong; Jianping Xue; Hongbo Li; Yong Chen
Page(s): 1969 - 1975
13. Intelligent Tracking Control for a Class of Uncertain High-Order Nonlinear Systems
Authors: Xudong Zhao; Peng Shi; Xiaolong Zheng; Jianhua Zhang
Page(s): 1976 - 1982
14. A Derivative-Free Riemannian Powell’s Method, Minimizing Hartley-Entropy-Based ICA Contrast
Authors: Amit Chattopadhyay; Suviseshamuthu Easter Selvan; Umberto Amato
Page(s): 1983 - 1990
15. Feedback Controller Design for the Synchronization of Boolean Control Networks
Authors: Yang Liu; Liangjie Sun; Jianquan Lu; Jinling Liang
Page(s): 1991 - 1996
Author(s): Avimanyu Sahoo; Hao Xu; Sarangapani Jagannathan
Page(s): 1801 - 1815
2. Dynamical Behavior of Delayed Reaction–Diffusion Hopfield Neural Networks Driven by Infinite Dimensional Wiener Processes
Authors: Xiao Liang; Linshan Wang; Yangfan Wang; Ruili Wang
Page(s): 1816 - 1826
3. Semisupervised Support Vector Machines With Tangent Space Intrinsic Manifold RegularizationMetrics by Information Projection
Authors: Shiliang Sun; Xijiong Xie
Page(s): 1827 - 1839
4. Efficient Implementation of the Backpropagation Algorithm in FPGAs and Microcontrollers
Authors: Francisco Ortega-Zamorano; José M. Jerez; Daniel Urda Muñoz; Rafael M. Luque-Baena; Leonardo Franco
Page(s): 1840 - 1850
5. On the Performance of Manhattan Nonnegative Matrix Factorization
Authors: Tongliang Liu; Dacheng Tao
Page(s): 1851 - 1863
6. Sequence Prediction With Sparse Distributed Hyperdimensional Coding Applied to the Analysis of Mobile Phone Use Patterns
Authors: Okko J. Räsänen; Jukka P. Saarinen
Page(s): 1878 - 1889
7. A Granular Self-Organizing Map for Clustering and Gene Selection in Microarray Data
Authors: Shubhra Sankar Ray; Avatharam Ganivada; Sankar K. Pal
Page(s): 1890 - 1906
8. Hierarchical Temporal Memory Based on Spin-Neurons and Resistive Memory for Energy-Efficient Brain-Inspired Computing
Authors: Deliang Fan; Mrigank Sharad; Abhronil Sengupta; Kaushik Roy
Page(s): 1907 - 1919
9. Image Understanding Applications of Lattice Autoassociative Memories
Authors: Manuel Graña; Darya Chyzhyk
Page(s): 1920 - 1932
10. Robust Low-Rank Tensor Recovery With Regularized Redescending M-Estimator
Authors: Yuning Yang; Yunlong Feng; Johan A. K. Suykens
Page(s): 1933 - 1946
11. Oversampling the Minority Class in the Feature Space
Authors: María Pérez-Ortiz; Pedro Antonio Gutiérrez; Peter Tino; César Hervás-Martínez
Page(s): 1947 - 1961
12. Adaptive Neural Control for a Class of Pure-Feedback Nonlinear Systems via Dynamic Surface Technique
Authors: Zongcheng Liu; Xinmin Dong; Jianping Xue; Hongbo Li; Yong Chen
Page(s): 1969 - 1975
13. Intelligent Tracking Control for a Class of Uncertain High-Order Nonlinear Systems
Authors: Xudong Zhao; Peng Shi; Xiaolong Zheng; Jianhua Zhang
Page(s): 1976 - 1982
14. A Derivative-Free Riemannian Powell’s Method, Minimizing Hartley-Entropy-Based ICA Contrast
Authors: Amit Chattopadhyay; Suviseshamuthu Easter Selvan; Umberto Amato
Page(s): 1983 - 1990
15. Feedback Controller Design for the Synchronization of Boolean Control Networks
Authors: Yang Liu; Liangjie Sun; Jianquan Lu; Jinling Liang
Page(s): 1991 - 1996
Wednesday, August 17, 2016
Evolving Systems, Volume 7, Issue 3
1. A self tuning regulator design for nonlinear time varying systems based on evolving linear models
Author(s): Sina Jahandari, Ahmad Kalhor & Babak Nadjar Araabi
Pages: 159-172
2. A fast online learning algorithm of radial basis function network with locality sensitive hashing
Author(s): Siti Hajar Aminah Ali, Kiminori Fukase & Seiichi Ozawa
Pages: 173-186
3. Maintenance of a Bayesian network: application using medical diagnosis
Author(s): Ahlem Refai, H. F. Merouani & Hayet Aouras
Pages: 187-196
4. Parallelization of filtered back-projection algorithm for computed tomography
Author(s): Akram Boukhamla, Hayet Farida Merouani & Hocine Sissaoui
Pages: 197-205
5. Understanding and modeling the complex dynamics of the online social networks: a scalable conceptual approach
Author(s): Ilias N. Lymperopoulos & George D. Ioannou
Pages: 207-232
Author(s): Sina Jahandari, Ahmad Kalhor & Babak Nadjar Araabi
Pages: 159-172
2. A fast online learning algorithm of radial basis function network with locality sensitive hashing
Author(s): Siti Hajar Aminah Ali, Kiminori Fukase & Seiichi Ozawa
Pages: 173-186
3. Maintenance of a Bayesian network: application using medical diagnosis
Author(s): Ahlem Refai, H. F. Merouani & Hayet Aouras
Pages: 187-196
4. Parallelization of filtered back-projection algorithm for computed tomography
Author(s): Akram Boukhamla, Hayet Farida Merouani & Hocine Sissaoui
Pages: 197-205
5. Understanding and modeling the complex dynamics of the online social networks: a scalable conceptual approach
Author(s): Ilias N. Lymperopoulos & George D. Ioannou
Pages: 207-232
Complex & Intelligent Systems Volume 2, Issue 2, June 2016
1. Real-time high-resolution detection approach considering eyes and its states in video frames through intelligence-based representation
Author(s): S. N. Yahyavi, A. H. Mazinan, M. Khademi
Pages:: 75-81
2. FPGA implementation of rule optimization for stand-alone tunable fuzzy logic controller using GA
Author(s): Bhaskara Rao Jammu, Pushpak Pati, S. K. Patra, K. K. Mahapatra
Pages: 83-98
3. Policy control framework-based algorithm for uncertain QoS harmonization in IP-based live video surveillance communications
Author(s): Abhishek Mishra
Pages: 99-110
4. Run-time architectural modeling for future internet applications
Author(s): Marina Mongiello, Simona Colucci, Elvis Vogli, Luigi Alfredo Grieco, Massimo Sciancalepore
Pages: 111-124
5. Prognostics: a literature review
Author(s): Hatem M. Elattar, Hamdy K. Elminir, A. M. Riad
Pages: 125-154
Author(s): S. N. Yahyavi, A. H. Mazinan, M. Khademi
Pages:: 75-81
2. FPGA implementation of rule optimization for stand-alone tunable fuzzy logic controller using GA
Author(s): Bhaskara Rao Jammu, Pushpak Pati, S. K. Patra, K. K. Mahapatra
Pages: 83-98
3. Policy control framework-based algorithm for uncertain QoS harmonization in IP-based live video surveillance communications
Author(s): Abhishek Mishra
Pages: 99-110
4. Run-time architectural modeling for future internet applications
Author(s): Marina Mongiello, Simona Colucci, Elvis Vogli, Luigi Alfredo Grieco, Massimo Sciancalepore
Pages: 111-124
5. Prognostics: a literature review
Author(s): Hatem M. Elattar, Hamdy K. Elminir, A. M. Riad
Pages: 125-154
Complex & Intelligent Systems Volume 2, Issue 1, March 2016
1. Bayesian network as an adaptive parameter setting approach for genetic algorithms
Author(s): Guillaume Corriveau, Raynald Guilbault, Antoine Tahahan, Robert Sabourin
Pages: 1-22
2. Emergence in the U.S. Science, Technology, Engineering, and Mathematics (STEM) workforce: an agent-based model of worker attrition and group size in high-density STEM organizations
Author(s): Ronald Iammartino, John Bischoff, Christopher Willy, Paul Shapiro
Pages: 23-34
3. A state equation for the Schelling’s segregation model
Author(s): Jae Kyun Shin, Hiroki Sayama, Seung Ryul Choi
Pages: 35-43
4. Interoperable multi-agent framework for unmanned aerial/ground vehicles: towards robot autonomy
Author(s): Willson Amalraj Arokiasami, Prahlad Vadakkepat, Kay Chen Tan, Dipti Srinivasan
Pages: 45-59
5. Fuzzy radial basis function network for fuzzy regression with fuzzy input and fuzzy output
Author(s): Nimet Yapıcı Pehlivan, Ayşen Apaydın
Pages: 61-73
Author(s): Guillaume Corriveau, Raynald Guilbault, Antoine Tahahan, Robert Sabourin
Pages: 1-22
2. Emergence in the U.S. Science, Technology, Engineering, and Mathematics (STEM) workforce: an agent-based model of worker attrition and group size in high-density STEM organizations
Author(s): Ronald Iammartino, John Bischoff, Christopher Willy, Paul Shapiro
Pages: 23-34
3. A state equation for the Schelling’s segregation model
Author(s): Jae Kyun Shin, Hiroki Sayama, Seung Ryul Choi
Pages: 35-43
4. Interoperable multi-agent framework for unmanned aerial/ground vehicles: towards robot autonomy
Author(s): Willson Amalraj Arokiasami, Prahlad Vadakkepat, Kay Chen Tan, Dipti Srinivasan
Pages: 45-59
5. Fuzzy radial basis function network for fuzzy regression with fuzzy input and fuzzy output
Author(s): Nimet Yapıcı Pehlivan, Ayşen Apaydın
Pages: 61-73
Monday, August 8, 2016
Weekly Review 8 August 2016
It's been a while since my last review post. This is because I have been away at the ITx conference in Wellington, followed by the WCCI 2016 conference in Vancouver, B.C. Below are some of the interesting links I Tweeted about in the last few weeks.
- A more and more common story, this is why I went into the private tertiary education sector, better job security: http://www.abc.net.au/radionational/programs/scienceshow/catherine-osborne-how-australia-fails-mid-career-scientists/7588644
- An overview of Bayesian machine learning: http://www.kdnuggets.com/2016/07/bayesian-machine-learning-explained.html
- An AI-based VC fund: https://techcrunch.com/2016/07/13/non-artificial-intelligence-please/
- An improved Turing Test shows how dumb chatbots really are: https://www.technologyreview.com/s/601897/tougher-turing-test-exposes-chatbots-stupidity/
- A tutorial on machine learning in Python: http://www.datasciencecentral.com/profiles/blogs/would-you-survive-the-titanic-a-guide-to-machine-learning-in
- An AI that detects hints of depression in speech: http://motherboard.vice.com/en_au/read/machine-learning-algorithm-spots-depression-based-on-speech-patterns
- The kinds of problems that AI still can't do: http://www.kdnuggets.com/2016/07/hard-problems-ai-cant-yet-touch.html
- How machine learning is driving artificial intelligence: http://www.datanami.com/2016/07/11/report-machine-learning-driving-ai/
- Five open-source deep learning projects: http://www.kdnuggets.com/2016/07/five-deep-learning-projects-cant-overlook.html
- The coming clash between EU regulations and artificial intelligence: http://www.wired.com/2016/07/artificial-intelligence-setting-internet-huge-clash-europe/?utm_content=buffer08177&utm_medium=social&utm_source=facebook.com&utm_campaign=buffer
- How AI-driven companies like Google depend on public data: https://techcrunch.com/2016/07/09/we-need-to-talk-about-ai-and-access-to-publicly-funded-data-sets/
- The problems with current chatbots: https://techcrunch.com/2016/07/16/bursting-the-chatbot-bubble/
- The application of supercomputers in deep learning: http://nextbigfuture.com/2016/07/supercomputers-can-accelerate-machine.html
- Zoom.ai is launching an AI executive assistant: https://techcrunch.com/2016/07/14/zoom-ai/
- A list of resources for learning about deep learning: http://www.kdnuggets.com/2016/07/start-learning-deep-learning.html
- A machine learning based email autoresponder: https://techcrunch.com/2016/07/13/zendesks-automatic-answers-taps-machine-learning-ai-to-generate-bot-style-email-responses/
- Predicting Game of Thrones betrayals using machine learning: http://dataconomy.com/machine-learning-can-predict-game-of-thrones-betrayals/
- Ten categories for machine learning and AI algorithms: http://www.kdnuggets.com/2016/07/10-algorithm-categories-data-science.html
- Helping AI better understand what we are saying to them: https://techcrunch.com/2016/07/15/pat-launches-private-beta-to-help-ai-understand-what-you-say/
- The AI boom in Silicon Valley: http://www.nytimes.com/2016/07/18/technology/on-wheels-and-wings-artificial-intelligence-swarms-silicon-valley.html?partner=IFTTT&_r=1
- Good news, 9 mill. people will be liberated from sweatshops by robots-Bad news, 9 mill. people without jobs: https://www.theguardian.com/sustainable-business/2016/jul/16/robot-factories-threaten-jobs-millions-garment-workers-south-east-asia-women
- Google's using deep learning to optimise the energy efficiency of cooling its server farms: http://www.bloomberg.com/news/articles/2016-07-19/google-cuts-its-giant-electricity-bill-with-deepmind-powered-ai
- A list of more than 50 machine learning API: http://www.datasciencecentral.com/profiles/blogs/list-of-50-machine-learning-apis
- How deep learning networks scale: http://www.kdnuggets.com/2016/07/deep-learning-networks-scale.html
- Using machine learning to manage virtual servers: http://www.datanami.com/2016/08/02/machine-learning-brings-real-insight-jordans-virtual-environment/
- Google, Microsoft, IBM, Amazon, Facebook are all renting-out access to their AI systems: https://www.technologyreview.com/s/602037/google-and-microsoft-want-every-company-to-scrutinize-you-with-ai/
- Current developments in deep learning: http://www.datasciencecentral.com/profiles/blogs/on-going-developments-and-outlook-for-deep-learning
- Yes, AI is just as biased as people, because AI are made by people. That has been obvious for a long time: https://www.theguardian.com/technology/2016/aug/03/algorithm-racist-human-employers-work
- Diagnosing autism using machine learning: https://www.sciencedaily.com/releases/2016/07/160712142403.htm
- Why Open Source programming languages are winning over proprietary languages: http://www.techrepublic.com/article/why-open-source-programming-languages-are-crushing-proprietary-peers/ Better to learn R than Matlab?
- An overview of deep learning neural networks applied to machine translation: https://kv-emptypages.blogspot.co.nz/2016/06/the-emerging-world-of-neural-net-driven.html
- A commented list of resources explaining NoSQL: http://www.kdnuggets.com/2016/07/seven-steps-understanding-nosql-databases.html
- A new version of PMML - Predictive Modelling Markup Language - has been released: http://www.kdnuggets.com/2016/08/data-mining-group-pmml-v43.html
- Ten simple rules for using statistics properly and effectively: http://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004961
- How to use machine learning for face recognition: https://medium.com/@ageitgey/machine-learning-is-fun-part-4-modern-face-recognition-with-deep-learning-c3cffc121d78#.wlicrwx4j
- Using machine learning to predict the genetic basis of autism: http://www.natureworldnews.com/articles/26110/20160802/predict-autism-machine-learning.htm
- Why Harvard Business School is teaching its MBA students about AI: http://www.businessbecause.com/news/full-time-mba/4100/harvard-business-school-is-teaching-mbas-about-ai
- Two more Google machine learning API are now in open beta: https://www.sdxcentral.com/articles/news/google-clouds-machine-learning-apis-hit-beta/2016/07/
- Top programming languages for 2016 - Python & R are now numbers 3 & 5, respectively. http://spectrum.ieee.org/static/interactive-the-top-programming-languages-2016?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+IeeeSpectrum+%28IEEE+Spectrum%29&utm_content=FaceBook
- Detecting sarcasm using a neural network: https://techcrunch.com/2016/08/04/this-neural-network-tries-to-tell-if-youre-being-sarcastic-online/ A lot of people still struggle to detect sarcasm...
- Developing chatbots for HR: https://www.technologyreview.com/s/602068/the-hr-person-at-your-next-job-may-actually-be-a-bot/
- Will artificial intelligence's ever get common sense? http://www.kdnuggets.com/2016/08/common-sense-artificial-intelligence-2026.html
- How investors feel about artificial intelligence: http://techemergence.com/how-investors-feel-about-artificial-intelligence-from-29-ai-founders-and-executives/
- Intelligent security and surveillance systems: http://www.extremetech.com/extreme/232728-when-you-look-at-the-camera-and-it-looks-back-how-artificial-intelligence-is-revolutionizing-home-security
- OpenAI is calling for an "AI Police" http://www.wired.com/2016/08/openai-calling-techie-cops-battle-code-gone-rogue/?mbid=social_twitter - I seem to remember the "Turing Police" in Neuromancer...
- Using machine learning to predict crop-yield from satellite images: http://www.theverge.com/2016/8/4/12369494/descartes-artificial-intelligence-crop-predictions-usda
- IBM is arguing that AI should be assisting people rather than replacing them: http://www.informationweek.com/government/leadership/ibm-ai-should-stand-for-augmented-intelligence/d/d-id/1326496?
- Arthur C. Clarke was writing about IA - Intelligence Amplifiers - in 1986: http://www.informationweek.com/government/leadership/ibm-ai-should-stand-for-augmented-intelligence/d/d-id/1326496?
- Using machine learning to find zero-day exploits on the dark web: https://www.technologyreview.com/s/602115/machine-learning-algorithm-combs-the-darknet-for-zero-day-exploits-and-finds-them/
- Yahoo has used machine learning to develop a troll-detecting algorithm: http://www.wired.co.uk/article/yahoo-online-abuse-algorithm
- The paper describing Yahoo's troll-detector: http://www2016.net/proceedings/proceedings/p145.pdf
- A paper on estimating crop yield from images, this time in China: http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=7524771&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D7524771
Thursday, August 4, 2016
IEEE Transactions on Evolutionary Computation, Volume 20, Number 4, August 2016
1. Entropy-Based Termination Criterion for Multiobjective Evolutionary Algorithms
Author(s): Dhish Kumar Saxena ; Arnab Sinha ; João A. Duro ; Qingfu Zhang
Page(s): 485 - 498
2. A Hybrid Multiobjective Memetic Metaheuristic for Multiple Sequence Alignment
Author(s): Álvaro Rubio-Largo ; Miguel A. Vega-Rodríguez ; David L. González-Álvarez
Page(s): 499 - 514
3. An Optimality Theory-Based Proximity Measure for Set-Based Multiobjective Optimization
Author(s): Kalyanmoy Deb ; Mohamed Abouhawwash
Page(s): 515 - 528
4. The Effects of Developer Dynamics on Fitness in an Evolutionary Ecosystem Model of the App Store
Author(s): Soo Ling Lim ; Peter J. Bentley ; Fuyuki Ishikawa
Page(s): 529 - 545
5. Subpermutation-Based Evolutionary Multiobjective Algorithm for Load Restoration in Power Distribution Networks
Author(s): Eduardo Gontijo Carrano ; Gisele P. da Silva ; Edgard P. Cardoso ; Ricardo H. C. Takahashi
Page(s): 546 - 562
6. A Primary Theoretical Study on Decomposition-Based Multiobjective Evolutionary Algorithms
Author(s): Yuan-Long Li ; Yu-Ren Zhou ; Zhi-Hui Zhan ; Jun Zhang
Page(s): 563 - 576
7. Discrete Planar Truss Optimization by Node Position Variation Using Grammatical Evolution
Author(s): Michael Fenton ; Ciaran McNally ; Jonathan Byrne ; Erik Hemberg ; James McDermott ; Michael O’Neill
Page(s): 577 - 589
8. An Adaptive Multipopulation Framework for Locating and Tracking Multiple Optima
Author(s): Changhe Li ; Trung Thanh Nguyen ; Ming Yang ; Michalis Mavrovouniotis ; Shengxiang Yang
Page(s): 590 - 605
9. A Survey on Evolutionary Computation Approaches to Feature Selection
Author(s): Bing Xue ; Mengjie Zhang ; Will N. Browne ; Xin Yao
Page(s): 606 - 626
10. An Enhanced Genetic Algorithm for Ab Initio Protein Structure Prediction
Author(s): Mahmood A. Rashid ; Firas Khatib ; Md Tamjidul Hoque ; Abdul Sattar
Page(s): 627 - 644
Author(s): Dhish Kumar Saxena ; Arnab Sinha ; João A. Duro ; Qingfu Zhang
Page(s): 485 - 498
2. A Hybrid Multiobjective Memetic Metaheuristic for Multiple Sequence Alignment
Author(s): Álvaro Rubio-Largo ; Miguel A. Vega-Rodríguez ; David L. González-Álvarez
Page(s): 499 - 514
3. An Optimality Theory-Based Proximity Measure for Set-Based Multiobjective Optimization
Author(s): Kalyanmoy Deb ; Mohamed Abouhawwash
Page(s): 515 - 528
4. The Effects of Developer Dynamics on Fitness in an Evolutionary Ecosystem Model of the App Store
Author(s): Soo Ling Lim ; Peter J. Bentley ; Fuyuki Ishikawa
Page(s): 529 - 545
5. Subpermutation-Based Evolutionary Multiobjective Algorithm for Load Restoration in Power Distribution Networks
Author(s): Eduardo Gontijo Carrano ; Gisele P. da Silva ; Edgard P. Cardoso ; Ricardo H. C. Takahashi
Page(s): 546 - 562
6. A Primary Theoretical Study on Decomposition-Based Multiobjective Evolutionary Algorithms
Author(s): Yuan-Long Li ; Yu-Ren Zhou ; Zhi-Hui Zhan ; Jun Zhang
Page(s): 563 - 576
7. Discrete Planar Truss Optimization by Node Position Variation Using Grammatical Evolution
Author(s): Michael Fenton ; Ciaran McNally ; Jonathan Byrne ; Erik Hemberg ; James McDermott ; Michael O’Neill
Page(s): 577 - 589
8. An Adaptive Multipopulation Framework for Locating and Tracking Multiple Optima
Author(s): Changhe Li ; Trung Thanh Nguyen ; Ming Yang ; Michalis Mavrovouniotis ; Shengxiang Yang
Page(s): 590 - 605
9. A Survey on Evolutionary Computation Approaches to Feature Selection
Author(s): Bing Xue ; Mengjie Zhang ; Will N. Browne ; Xin Yao
Page(s): 606 - 626
10. An Enhanced Genetic Algorithm for Ab Initio Protein Structure Prediction
Author(s): Mahmood A. Rashid ; Firas Khatib ; Md Tamjidul Hoque ; Abdul Sattar
Page(s): 627 - 644
IEEE Transactions on Fuzzy Systems, Volume 24, Issue 1, 2016
1. Representing Uncertainty With Information Sets
Author(s): Manish Aggarwal ; Madasu Hanmandlu
Page(s): 1 - 15
2. Fuzzy Approximation-Based Adaptive Backstepping Optimal Control for a Class of Nonlinear Discrete-Time Systems With Dead-Zone
Author(s): Yan-Jun Liu ; Ying Gao ; Shaocheng Tong ; Yongming Li
Page(s): 16 - 28
3. Probabilistic Variable Precision Fuzzy Rough Sets
Author(s): Manish Aggarwal
Page(s): 29 - 39
4. A Survey of Fuzzy Systems Software: Taxonomy, Current Research Trends, and Prospects
Author(s): Jesús Alcalá-Fdez ; José M. Alonso
Page(s): 40 - 56
5. Adaptive Fuzzy Control of Multilateral Asymmetric Teleoperation for Coordinated Multiple Mobile Manipulators
Author(s): Di-Hua Zhai ; Yuanqing Xia
Page(s): 57 - 70
6. Learning of Fuzzy Cognitive Maps With Varying Densities Using A Multiobjective Evolutionary Algorithm
Author(s): Yaxiong Chi ; Jing Liu
Page(s): 71 - 81
7. The Multiplicative Consistency Index of Hesitant Fuzzy Preference Relation
Author(s): Haifeng Liu ; Zeshui Xu ; Huchang Liao
Page(s): 82 - 93
8. A New Sum-of-Squares Design Framework for Robust Control of Polynomial Fuzzy Systems With Uncertainties
Author(s): Kazuo Tanaka ; Motoyasu Tanaka ; Ying-Jen Chen ; Hua O. Wang
Page(s): 94 - 110
9. Min-Max Programming Problem Subject to Addition-Min Fuzzy Relation Inequalities
Author(s): Xiao-Peng Yang ; Xue-Gang Zhou ; Bing-Yuan Cao
Page(s): 111 - 119
10. Design of Fuzzy Cognitive Maps for Modeling Time Series
Author(s): Witold Pedrycz ; Agnieszka Jastrzebska ; Wladyslaw Homenda
Page(s): 120 - 130
11. A Categorical Isomorphism Between Injective Stratified Fuzzy T_{bm 0} Spaces and Fuzzy Continuous Lattices
Author(s): Wei Yao
Page(s): 131 - 139
12. Adaptive Fuzzy Control for a Class of Stochastic Pure-Feedback Nonlinear Systems With Unknown Hysteresis
Author(s): Fang Wang ; Zhi Liu ; Yun Zhang ; C. L. Philip Chen
Page(s): 140 - 152
13. Recurrent Fuzzy Neural Cerebellar Model Articulation Network Fault-Tolerant Control of Six-Phase Permanent Magnet Synchronous Motor Position Servo Drive
Author(s): Faa-Jeng Lin ; I-Fan Sun ; Kai-Jie Yang ; Jin-Kuan Chang
Page(s): 153 - 167
14. OWA Generation Function and Some Adjustment Methods for OWA Operators With Application
Author(s): LeSheng Jin ; Gang Qian
Page(s): 168 - 178
15. A Historical Account of Types of Fuzzy Sets and Their Relationships
Author(s): Humberto Bustince ; Edurne Barrenechea ; Miguel Pagola ; Javier Fernandez ; Zeshui Xu ; Benjamin Bedregal ; Javier Montero ; Hani Hagras ; Francisco Herrera ; Bernard De Baets
Page(s): 179 - 194
16. Fuzzy Membership Descriptors for Images
Author(s): Mohit Kumar ; Norbert Stoll ; Kerstin Thurow ; Regina Stoll
Page(s): 195 - 207
17. Robust Fuzzy H_{\infty } Estimator-Based Stabilization Design for Nonlinear Parabolic Partial Differential Systems With Different Boundary Conditions
Author(s): Shih-Ju Ho ; Bor-Sen Chen
Page(s): 208 - 222
18. Fuzzy Adaptive Output Feedback Fault-Tolerant Tracking Control of a Class of Uncertain Nonlinear Systems With Nonaffine Nonlinear Faults
Author(s): Yuan-Xin Li ; Guang-Hong Yang
Page(s): 223 - 234
19. Control of Switched Nonlinear Systems via T–S Fuzzy Modeling
Author(s): Xudong Zhao ; Yunfei Yin ; Lixian Zhang ; Haijiao Yang
Page(s): 235 - 241
20. Ambiguity-Based Multiclass Active Learning
Author(s): Ran Wang ; Chi-Yin Chow ; Sam Kwong
Page(s): 242 - 248
21. Comments on "Interval Type-2 Fuzzy Sets are Generalization of Interval-Valued Fuzzy Sets: Towards a Wide View on Their Relationship"
Author(s): Jerry M. Mendel ; Hani Hagras ; Humberto Bustince ; Francisco Herrera
Page(s): 249 - 250
Author(s): Manish Aggarwal ; Madasu Hanmandlu
Page(s): 1 - 15
2. Fuzzy Approximation-Based Adaptive Backstepping Optimal Control for a Class of Nonlinear Discrete-Time Systems With Dead-Zone
Author(s): Yan-Jun Liu ; Ying Gao ; Shaocheng Tong ; Yongming Li
Page(s): 16 - 28
3. Probabilistic Variable Precision Fuzzy Rough Sets
Author(s): Manish Aggarwal
Page(s): 29 - 39
4. A Survey of Fuzzy Systems Software: Taxonomy, Current Research Trends, and Prospects
Author(s): Jesús Alcalá-Fdez ; José M. Alonso
Page(s): 40 - 56
5. Adaptive Fuzzy Control of Multilateral Asymmetric Teleoperation for Coordinated Multiple Mobile Manipulators
Author(s): Di-Hua Zhai ; Yuanqing Xia
Page(s): 57 - 70
6. Learning of Fuzzy Cognitive Maps With Varying Densities Using A Multiobjective Evolutionary Algorithm
Author(s): Yaxiong Chi ; Jing Liu
Page(s): 71 - 81
7. The Multiplicative Consistency Index of Hesitant Fuzzy Preference Relation
Author(s): Haifeng Liu ; Zeshui Xu ; Huchang Liao
Page(s): 82 - 93
8. A New Sum-of-Squares Design Framework for Robust Control of Polynomial Fuzzy Systems With Uncertainties
Author(s): Kazuo Tanaka ; Motoyasu Tanaka ; Ying-Jen Chen ; Hua O. Wang
Page(s): 94 - 110
9. Min-Max Programming Problem Subject to Addition-Min Fuzzy Relation Inequalities
Author(s): Xiao-Peng Yang ; Xue-Gang Zhou ; Bing-Yuan Cao
Page(s): 111 - 119
10. Design of Fuzzy Cognitive Maps for Modeling Time Series
Author(s): Witold Pedrycz ; Agnieszka Jastrzebska ; Wladyslaw Homenda
Page(s): 120 - 130
11. A Categorical Isomorphism Between Injective Stratified Fuzzy T_{bm 0} Spaces and Fuzzy Continuous Lattices
Author(s): Wei Yao
Page(s): 131 - 139
12. Adaptive Fuzzy Control for a Class of Stochastic Pure-Feedback Nonlinear Systems With Unknown Hysteresis
Author(s): Fang Wang ; Zhi Liu ; Yun Zhang ; C. L. Philip Chen
Page(s): 140 - 152
13. Recurrent Fuzzy Neural Cerebellar Model Articulation Network Fault-Tolerant Control of Six-Phase Permanent Magnet Synchronous Motor Position Servo Drive
Author(s): Faa-Jeng Lin ; I-Fan Sun ; Kai-Jie Yang ; Jin-Kuan Chang
Page(s): 153 - 167
14. OWA Generation Function and Some Adjustment Methods for OWA Operators With Application
Author(s): LeSheng Jin ; Gang Qian
Page(s): 168 - 178
15. A Historical Account of Types of Fuzzy Sets and Their Relationships
Author(s): Humberto Bustince ; Edurne Barrenechea ; Miguel Pagola ; Javier Fernandez ; Zeshui Xu ; Benjamin Bedregal ; Javier Montero ; Hani Hagras ; Francisco Herrera ; Bernard De Baets
Page(s): 179 - 194
16. Fuzzy Membership Descriptors for Images
Author(s): Mohit Kumar ; Norbert Stoll ; Kerstin Thurow ; Regina Stoll
Page(s): 195 - 207
17. Robust Fuzzy H_{\infty } Estimator-Based Stabilization Design for Nonlinear Parabolic Partial Differential Systems With Different Boundary Conditions
Author(s): Shih-Ju Ho ; Bor-Sen Chen
Page(s): 208 - 222
18. Fuzzy Adaptive Output Feedback Fault-Tolerant Tracking Control of a Class of Uncertain Nonlinear Systems With Nonaffine Nonlinear Faults
Author(s): Yuan-Xin Li ; Guang-Hong Yang
Page(s): 223 - 234
19. Control of Switched Nonlinear Systems via T–S Fuzzy Modeling
Author(s): Xudong Zhao ; Yunfei Yin ; Lixian Zhang ; Haijiao Yang
Page(s): 235 - 241
20. Ambiguity-Based Multiclass Active Learning
Author(s): Ran Wang ; Chi-Yin Chow ; Sam Kwong
Page(s): 242 - 248
21. Comments on "Interval Type-2 Fuzzy Sets are Generalization of Interval-Valued Fuzzy Sets: Towards a Wide View on Their Relationship"
Author(s): Jerry M. Mendel ; Hani Hagras ; Humberto Bustince ; Francisco Herrera
Page(s): 249 - 250
Tuesday, August 2, 2016
Neural Networks, Volume 81, Pages: 1-102, September 2016
1. Global exponential stability of impulsive complex-valued neural networks with both asynchronous time-varying and continuously distributed delays
Author(s): Qiankun Song, Huan Yan, Zhenjiang Zhao, Yurong Liu
Pages: 1-10
2. A note on finite-time and fixed-time stability
Author(s): Wenlian Lu, Xiwei Liu, Tianping Chen
Pages: 11-15
3. Synchronization of fractional-order complex-valued neural networks with time delay
Author(s): Haibo Bao, Ju H. Park, Jinde Cao
Pages: 16-28
4. Real-time object tracking based on scale-invariant features employing bio-inspired hardware
Author(s): Shinsuke Yasukawa, Hirotsugu Okuno, Kazuo Ishii, Tetsuya Yagi
Pages: 29-38
5. A neural model of the frontal eye fields with reward-based learning
Author(s): Weijie Ye, Shenquan Liu, Xuanliang Liu, Yuguo Yu
Pages: 39-51
6. New results on anti-synchronization of switched neural networks with time-varying delays and lag signals
Author(s): Yuting Cao, Shiping Wen, Michael Z.Q. Chen, Tingwen Huang, Zhigang Zeng
Pages: 52-58
7. Pseudo-inverse linear discriminants for the improvement of overall classification accuracies
Author(s): Gao Daqi, Dastagir Ahmed, Guo Lili, Wang Zejian, Wang Zhe
Pages: 59-71
8. Neural network training as a dissipative process
Author(s): Marco Gori, Marco Maggini, Alessandro Rossi
Pages: 72-80
9. Pointwise and uniform approximation by multivariate neural network operators of the max-product type
Author(s): Danilo Costarelli, Gianluca Vinti
Pages: 81-90
10. Extreme learning machine and adaptive sparse representation for image classification
Author(s): Jiuwen Cao, Kai Zhang, Minxia Luo, Chun Yin, Xiaoping Lai
Pages: 91-102
Author(s): Qiankun Song, Huan Yan, Zhenjiang Zhao, Yurong Liu
Pages: 1-10
2. A note on finite-time and fixed-time stability
Author(s): Wenlian Lu, Xiwei Liu, Tianping Chen
Pages: 11-15
3. Synchronization of fractional-order complex-valued neural networks with time delay
Author(s): Haibo Bao, Ju H. Park, Jinde Cao
Pages: 16-28
4. Real-time object tracking based on scale-invariant features employing bio-inspired hardware
Author(s): Shinsuke Yasukawa, Hirotsugu Okuno, Kazuo Ishii, Tetsuya Yagi
Pages: 29-38
5. A neural model of the frontal eye fields with reward-based learning
Author(s): Weijie Ye, Shenquan Liu, Xuanliang Liu, Yuguo Yu
Pages: 39-51
6. New results on anti-synchronization of switched neural networks with time-varying delays and lag signals
Author(s): Yuting Cao, Shiping Wen, Michael Z.Q. Chen, Tingwen Huang, Zhigang Zeng
Pages: 52-58
7. Pseudo-inverse linear discriminants for the improvement of overall classification accuracies
Author(s): Gao Daqi, Dastagir Ahmed, Guo Lili, Wang Zejian, Wang Zhe
Pages: 59-71
8. Neural network training as a dissipative process
Author(s): Marco Gori, Marco Maggini, Alessandro Rossi
Pages: 72-80
9. Pointwise and uniform approximation by multivariate neural network operators of the max-product type
Author(s): Danilo Costarelli, Gianluca Vinti
Pages: 81-90
10. Extreme learning machine and adaptive sparse representation for image classification
Author(s): Jiuwen Cao, Kai Zhang, Minxia Luo, Chun Yin, Xiaoping Lai
Pages: 91-102
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