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126 results on '"Khadivi, Pejman"'

1. DGAFF: Deep Genetic Algorithm Fitness Formation for EEG Bio-Signal Channel Selection

Author

Ghorbanzadeh, Ghazaleh, Nabizadeh, Zahra, Karimi, Nader, Khadivi, Pejman, Emami, Ali, and Samavi, Shadrokh

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Brain-computer interface systems aim to facilitate human-computer interactions in a great deal by direct translation of brain signals for computers. Recently, using many electrodes has caused better performance in these systems. However, increasing the number of recorded electrodes leads to additional time, hardware, and computational costs besides undesired complications of the recording process. Channel selection has been utilized to decrease data dimension and eliminate irrelevant channels while reducing the noise effects. Furthermore, the technique lowers the time and computational costs in real-time applications. We present a channel selection method, which combines a sequential search method with a genetic algorithm called Deep GA Fitness Formation (DGAFF). The proposed method accelerates the convergence of the genetic algorithm and increases the system's performance. The system evaluation is based on a lightweight deep neural network that automates the whole model training process. The proposed method outperforms other channel selection methods in classifying motor imagery on the utilized dataset., Comment: 15 pages, 4 figures

Published
2022

3. Brain Tumor Classification by Cascaded Multiscale Multitask Learning Framework Based on Feature Aggregation

Author

Sobhaninia, Zahra, Karimi, Nader, Khadivi, Pejman, and Samavi, Shadrokh

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Brain tumor analysis in MRI images is a significant and challenging issue because misdiagnosis can lead to death. Diagnosis and evaluation of brain tumors in the early stages increase the probability of successful treatment. However, the complexity and variety of tumors, shapes, and locations make their segmentation and classification complex. In this regard, numerous researchers have proposed brain tumor segmentation and classification methods. This paper presents an approach that simultaneously segments and classifies brain tumors in MRI images using a framework that contains MRI image enhancement and tumor region detection. Eventually, a network based on a multitask learning approach is proposed. Subjective and objective results indicate that the segmentation and classification results based on evaluation metrics are better or comparable to the state-of-the-art., Comment: 16 pages, 7 figures

Published
2021

4. Segmentation of Lungs COVID Infected Regions by Attention Mechanism and Synthetic Data

Author

Yazdekhasty, Parham, Zindari, Ali, Nabizadeh-ShahreBabak, Zahra, Khadivi, Pejman, Karimi, Nader, and Samavi, Shadrokh

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Coronavirus has caused hundreds of thousands of deaths. Fatalities could decrease if every patient could get suitable treatment by the healthcare system. Machine learning, especially computer vision methods based on deep learning, can help healthcare professionals diagnose and treat COVID-19 infected cases more efficiently. Hence, infected patients can get better service from the healthcare system and decrease the number of deaths caused by the coronavirus. This research proposes a method for segmenting infected lung regions in a CT image. For this purpose, a convolutional neural network with an attention mechanism is used to detect infected areas with complex patterns. Attention blocks improve the segmentation accuracy by focusing on informative parts of the image. Furthermore, a generative adversarial network generates synthetic images for data augmentation and expansion of small available datasets. Experimental results show the superiority of the proposed method compared to some existing procedures., Comment: Figures 2 and 3 by mistake were similar. In this version, they are corrected

Published
2021

5. Compound Frechet Inception Distance for Quality Assessment of GAN Created Images

Author

Nunn, Eric J., Khadivi, Pejman, and Samavi, Shadrokh

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Generative adversarial networks or GANs are a type of generative modeling framework. GANs involve a pair of neural networks engaged in a competition in iteratively creating fake data, indistinguishable from the real data. One notable application of GANs is developing fake human faces, also known as "deep fakes," due to the deep learning algorithms at the core of the GAN framework. Measuring the quality of the generated images is inherently subjective but attempts to objectify quality using standardized metrics have been made. One example of objective metrics is the Frechet Inception Distance (FID), which measures the difference between distributions of feature vectors for two separate datasets of images. There are situations that images with low perceptual qualities are not assigned appropriate FID scores. We propose to improve the robustness of the evaluation process by integrating lower-level features to cover a wider array of visual defects. Our proposed method integrates three levels of feature abstractions to evaluate the quality of generated images. Experimental evaluations show better performance of the proposed method for distorted images., Comment: 11 pages, 10 figures

Published
2021

6. Robust Watermarking using Diffusion of Logo into Autoencoder Feature Maps

Author

Jamali, Maedeh, Karim, Nader, Khadivi, Pejman, Shirani, Shahram, and Samavi, Shadrokh

Subjects
Computer Science - Multimedia, Computer Science - Machine Learning
Abstract

Digital contents have grown dramatically in recent years, leading to increased attention to copyright. Image watermarking has been considered one of the most popular methods for copyright protection. With the recent advancements in applying deep neural networks in image processing, these networks have also been used in image watermarking. Robustness and imperceptibility are two challenging features of watermarking methods that the trade-off between them should be satisfied. In this paper, we propose to use an end-to-end network for watermarking. We use a convolutional neural network (CNN) to control the embedding strength based on the image content. Dynamic embedding helps the network to have the lowest effect on the visual quality of the watermarked image. Different image processing attacks are simulated as a network layer to improve the robustness of the model. Our method is a blind watermarking approach that replicates the watermark string to create a matrix of the same size as the input image. Instead of diffusing the watermark data into the input image, we inject the data into the feature space and force the network to do this in regions that increase the robustness against various attacks. Experimental results show the superiority of the proposed method in terms of imperceptibility and robustness compared to the state-of-the-art algorithms., Comment: 16 pages, 6 figures

Published
2021

7. Bifurcated Autoencoder for Segmentation of COVID-19 Infected Regions in CT Images

Author

Yazdekhasty, Parham, Zindar, Ali, Nabizadeh-ShahreBabak, Zahra, Roshandel, Roshank, Khadivi, Pejman, Karimi, Nader, and Samavi, Shadrokh

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

The new coronavirus infection has shocked the world since early 2020 with its aggressive outbreak. Rapid detection of the disease saves lives, and relying on medical imaging (Computed Tomography and X-ray) to detect infected lungs has shown to be effective. Deep learning and convolutional neural networks have been used for image analysis in this context. However, accurate identification of infected regions has proven challenging for two main reasons. Firstly, the characteristics of infected areas differ in different images. Secondly, insufficient training data makes it challenging to train various machine learning algorithms, including deep-learning models. This paper proposes an approach to segment lung regions infected by COVID-19 to help cardiologists diagnose the disease more accurately, faster, and more manageable. We propose a bifurcated 2-D model for two types of segmentation. This model uses a shared encoder and a bifurcated connection to two separate decoders. One decoder is for segmentation of the healthy region of the lungs, while the other is for the segmentation of the infected regions. Experiments on publically available images show that the bifurcated structure segments infected regions of the lungs better than state of the art., Comment: 11 pages, 3 Figures

Published
2020

8. Brain Tumor Classification Using Medial Residual Encoder Layers

Author

SobhaniNia, Zahra, Karimi, Nader, Khadivi, Pejman, Roshandel, Roshank, and Samavi, Shadrokh

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

According to the World Health Organization (WHO), cancer is the second leading cause of death worldwide, responsible for over 9.5 million deaths in 2018 alone. Brain tumors count for one out of every four cancer deaths. Therefore, accurate and timely diagnosis of brain tumors will lead to more effective treatments. Physicians classify brain tumors only with biopsy operation by brain surgery, and after diagnosing the type of tumor, a treatment plan is considered for the patient. Automatic systems based on machine learning algorithms can allow physicians to diagnose brain tumors with noninvasive measures. To date, several image classification approaches have been proposed to aid diagnosis and treatment. For brain tumor classification in this work, we offer a system based on deep learning, containing encoder blocks. These blocks are fed with post-max-pooling features as residual learning. Our approach shows promising results by improving the tumor classification accuracy in Magnetic resonance imaging (MRI) images using a limited medical image dataset. Experimental evaluations of this model on a dataset consisting of 3064 MR images show 95.98% accuracy, which is better than previous studies on this database., Comment: 4 pages, 4 figures

Published
2020

9. Classification of Diabetic Retinopathy Using Unlabeled Data and Knowledge Distillation

Author

Abbasi, Sajjad, Hajabdollahi, Mohsen, Khadivi, Pejman, Karimi, Nader, Roshandel, Roshanak, Shirani, Shahram, and Samavi, Shadrokh

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Knowledge distillation allows transferring knowledge from a pre-trained model to another. However, it suffers from limitations, and constraints related to the two models need to be architecturally similar. Knowledge distillation addresses some of the shortcomings associated with transfer learning by generalizing a complex model to a lighter model. However, some parts of the knowledge may not be distilled by knowledge distillation sufficiently. In this paper, a novel knowledge distillation approach using transfer learning is proposed. The proposed method transfers the entire knowledge of a model to a new smaller one. To accomplish this, unlabeled data are used in an unsupervised manner to transfer the maximum amount of knowledge to the new slimmer model. The proposed method can be beneficial in medical image analysis, where labeled data are typically scarce. The proposed approach is evaluated in the context of classification of images for diagnosing Diabetic Retinopathy on two publicly available datasets, including Messidor and EyePACS. Simulation results demonstrate that the approach is effective in transferring knowledge from a complex model to a lighter one. Furthermore, experimental results illustrate that the performance of different small models is improved significantly using unlabeled data and knowledge distillation., Comment: 21 pages, 6 figures, 7 tables. arXiv admin note: substantial text overlap with arXiv:2002.03321

Published
2020

10. Selection of Proper EEG Channels for Subject Intention Classification Using Deep Learning

Author

Ghorbanzade, Ghazale, Nabizadeh-ShahreBabak, Zahra, Samavi, Shadrokh, Karimi, Nader, Emami, Ali, and Khadivi, Pejman

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Computer Vision and Pattern Recognition, Quantitative Biology - Neurons and Cognition
Abstract

Brain signals could be used to control devices to assist individuals with disabilities. Signals such as electroencephalograms are complicated and hard to interpret. A set of signals are collected and should be classified to identify the intention of the subject. Different approaches have tried to reduce the number of channels before sending them to a classifier. We are proposing a deep learning-based method for selecting an informative subset of channels that produce high classification accuracy. The proposed network could be trained for an individual subject for the selection of an appropriate set of channels. Reduction of the number of channels could reduce the complexity of brain-computer-interface devices. Our method could find a subset of channels. The accuracy of our approach is comparable with a model trained on all channels. Hence, our model's temporal and power costs are low, while its accuracy is kept high., Comment: 10 pages 2 figures

Published
2020

11. BlessMark: A Blind Diagnostically-Lossless Watermarking Framework for Medical Applications Based on Deep Neural Networks

Author

Zarrabi, Hamidreza, Emami, Ali, Khadivi, Pejman, Karimi, Nader, and Samavi, Shadrokh

Subjects
Computer Science - Multimedia
Abstract

Nowadays, with the development of public network usage, medical information is transmitted throughout the hospitals. The watermarking system can help for the confidentiality of medical information distributed over the internet. In medical images, regions-of-interest (ROI) contain diagnostic information. The watermark should be embedded only into non-regions-of-interest (NROI) to keep diagnostic information without distortion. Recently, ROI based watermarking has attracted the attention of the medical research community. The ROI map can be used as an embedding key for improving confidentiality protection purposes. However, in most existing works, the ROI map that is used for the embedding process must be sent as side-information along with the watermarked image. This side information is a disadvantage and makes the extraction process non-blind. Also, most existing algorithms do not recover NROI of the original cover image after the extraction of the watermark. In this paper, we propose a framework for blind diagnostically-lossless watermarking, which iteratively embeds only into NROI. The significance of the proposed framework is in satisfying the confidentiality of the patient information through a blind watermarking system, while it preserves diagnostic/medical information of the image throughout the watermarking process. A deep neural network is used to recognize the ROI map in the embedding, extraction, and recovery processes. In the extraction process, the same ROI map of the embedding process is recognized without requiring any additional information. Hence, the watermark is blindly extracted from the NROI., Comment: Drs. Soroushmehr and Najarian declared that they had not contributions to the paper. I removed their names

Published
2019

13. Fault-Tolerant Routing in Hypercube Networks by Avoiding Faulty Nodes

Author

Samavi, Shadrokh and Khadivi, Pejman

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning
Abstract

Next to the high performance, the essential feature of the multiprocessor systems is their fault-tolerant capability. In this regard, fault-tolerant interconnection networks and especially fault-tolerant routing methods are crucial parts of these systems. Hypercube is a popular interconnection network that is used in many multiprocessors. There are several suggested practices for fault tolerant routing in these systems. In this paper, a neural routing method is introduced which is named as Fault Avoidance Routing (FAR). This method keeps the message as far from the faulty nodes as possible. The proposed method employs the Hopfield neural network. In comparison with other neural routing methods, FAR requires a small number of neurons. The simulation results show that FAR has excellent performance in larger interconnection networks and networks with a high density of faulty nodes.

Published
2019

16. Segmentation of Bleeding Regions in Wireless Capsule Endoscopy for Detection of Informative Frames

Author

Hajabdollahi, Mohsen, Esfandiarpoor, Reza, Khadivi, Pejman, Soroushmehr, S. M. Reza, Karimi, Nader, Najarian, Kayvan, and Samavi, Shadrokh

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Wireless capsule endoscopy (WCE) is an effective mean for diagnosis of gastrointestinal disorders. Detection of informative scenes in WCE video could reduce the length of transmitted videos and help the diagnosis procedure. In this paper, we investigate the problem of simplification of neural networks for automatic bleeding region detection inside capsule endoscopy device. Suitable color channels are selected as neural networks inputs, and image classification is conducted using a multi-layer perceptron (MLP) and a convolutional neural network (CNN) separately. Both CNN and MLP structures are simplified to reduce the number of computational operations. Performances of two simplified networks are evaluated on a WCE bleeding image dataset using the DICE score. Simulation results show that applying simplification methods on both MLP and CNN structures reduces the number of computational operations significantly with AUC greater than 0.97. Although CNN performs better in comparison with simplified MLP, the simplified MLP segments bleeding regions with a significantly smaller number of computational operations. Concerning the importance of having a simple structure or a more accurate model, each of the designed structures could be selected for inside capsule implementation.

Published
2018

17. Use of Frequency Domain for Complexity Reduction of Convolutional Neural Networks

Author

Chitsaz, Kamran, Hajabdollahi, Mohsen, Khadivi, Pejman, Samavi, Shadrokh, Karimi, Nader, Shirani, Shahram, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Del Bimbo, Alberto, editor, Cucchiara, Rita, editor, Sclaroff, Stan, editor, Farinella, Giovanni Maria, editor, Mei, Tao, editor, Bertini, Marco, editor, Escalante, Hugo Jair, editor, and Vezzani, Roberto, editor

Published
2021
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18. Bifurcated Autoencoder for Segmentation of COVID-19 Infected Regions in CT Images

Author

Yazdekhasty, Parham, Zindari, Ali, Nabizadeh-ShahreBabak, Zahra, Roshandel, Roshanak, Khadivi, Pejman, Karimi, Nader, Samavi, Shadrokh, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Del Bimbo, Alberto, editor, Cucchiara, Rita, editor, Sclaroff, Stan, editor, Farinella, Giovanni Maria, editor, Mei, Tao, editor, Bertini, Marco, editor, Escalante, Hugo Jair, editor, and Vezzani, Roberto, editor

Published
2021
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20. Flow of Information in Feed-Forward Deep Neural Networks

Author

Khadivi, Pejman, Tandon, Ravi, and Ramakrishnan, Naren

Subjects
Computer Science - Information Theory, Computer Science - Learning
Abstract

Feed-forward deep neural networks have been used extensively in various machine learning applications. Developing a precise understanding of the underling behavior of neural networks is crucial for their efficient deployment. In this paper, we use an information theoretic approach to study the flow of information in a neural network and to determine how entropy of information changes between consecutive layers. Moreover, using the Information Bottleneck principle, we develop a constrained optimization problem that can be used in the training process of a deep neural network. Furthermore, we determine a lower bound for the level of data representation that can be achieved in a deep neural network with an acceptable level of distortion.

Published
2016

39. Online Denoising Solutions for Forecasting Applications

Author

Khadivi, Pejman, Computer Science, Ramakrishnan, Naren, Yao, Danfeng (Daphne), Marathe, Madhav Vishnu, Tandon, Ravi, and Prakash, B. Aditya

Subjects
Denoising, Information theory, Time series, Data analytics, Forecasting
Abstract

Dealing with noisy time series is a crucial task in many data-driven real-time applications. Due to the inaccuracies in data acquisition, time series suffer from noise and instability which leads to inaccurate forecasting results. Therefore, in order to improve the performance of time series forecasting, an important pre-processing step is the denoising of data before performing any action. In this research, we will propose various approaches to tackle the noisy time series in forecasting applications. For this purpose, we use different machine learning methods and information theoretical approaches to develop online denoising algorithms. In this dissertation, we propose four categories of time series denoising methods that can be used in different situations, depending on the noise and time series properties. In the first category, a seasonal regression technique is proposed for the denoising of time series with seasonal behavior. In the second category, multiple discrete universal denoisers are developed that can be used for the online denoising of discrete value time series. In the third category, we develop a noisy channel reversal model based on the similarities between time series forecasting and data communication and use that model to deploy an out-of-band noise filtering in forecasting applications. The last category of the proposed methods is deep-learning based denoisers. We use information theoretic concepts to analyze a general feed-forward deep neural network and to prove theoretical bounds for deep neural networks behavior. Furthermore, we propose a denoising deep neural network method for the online denoising of time series. Real-world and synthetic time series are used for numerical experiments and performance evaluations. Experimental results show that the proposed methods can efficiently denoise the time series and improve their quality. Ph. D.

Published
2016

40. Results from the centers for disease control and prevention’s predict the 2013–2014 Influenza Season Challenge

Author

Biggerstaff, Matthew, Alper, David, Dredze, Mark, Fox, Spencer, Fung, Isaac Chun Hai, Hickmann, Kyle S., Lewis, Bryan, Rosenfeld, Roni, Shaman, Jeffrey, Tsou, Ming Hsiang, Velardi, Paola, Vespignani, Alessandro, Finelli, Lyn, Chandra, Priyadarshini, Kaup, Hemchandra, Krishnan, Ramesh, Madhavan, Satish, Markar, Ashirwad, Pashley, Bryanne, Paul, Michael, Meyers, Lauren Ancel, Eggo, Rosalind, Henderson, Jette, Ramakrishnan, Anurekha, Scott, James, Singh, Bismark, Srinivasan, Ravi, Bakach, Iurii, Hao, Yi, Schaible, Braydon J., Sexton, Jessica K., Del Valle, Sara Y., Deshpande, Alina, Fairchild, Geoffrey, Generous, Nicholas, Priedhorsky, Reid, Hickman, Kyle S., Hyman, James M., Brooks, Logan, Farrow, David, Hyun, Sangwon, Tibshirani, Ryan J., Yang, Wan, Allen, Christopher, Aslam, Anoshã, Nagel, Anna, Stilo, Giovanni, Basagni, Stefano, Zhang, Qian, Perra, Nicola, Chakraborty, Prithwish, Butler, Patrick, Khadivi, Pejman, Ramakrishnan, Naren, Chen, Jiangzhuo, Barrett, Chris, Bisset, Keith, Eubank, Stephen, Anil Kumar, V. S., Laskowski, Kathy, Lum, Kristian, Marathe, Madhav, Aman, Susan, Brownstein, John S., Goldstein, Ed, Lipsitch, Marc, Mekaru, Sumiko R., Nsoesie, Elaine O., Gesualdo, Francesco, Tozzi, Alberto E., Broniatowski, David, Karspeck, Alicia, Tse, Zion Tsz Ho, Ying, Yuchen, Gambhir, Manoj, and Scarpino, Sam

Subjects
0301 basic medicine, Veterinary medicine, Influenza season, Models, Biological, 03 medical and health sciences, 0302 clinical medicine, Public health surveillance, Models, Centers for Disease Control and Prevention (U.S.), Influenza, Human, Influenza prevention, Expert evaluation, Humans, Medicine, Public Health Surveillance, Research article, National level, 030212 general & internal medicine, Duration (project management), health care economics and organizations, Models, Statistical, business.industry, Modeling, social sciences, Statistical, Biological, Disease control, United States, Influenza, 3. Good health, 030104 developmental biology, Infectious Diseases, Forecasting, Prediction, Seasons, Human, Centers for Disease Control and Prevention, U.S, business, Research Article, Demography
Abstract

Background Early insights into the timing of the start, peak, and intensity of the influenza season could be useful in planning influenza prevention and control activities. To encourage development and innovation in influenza forecasting, the Centers for Disease Control and Prevention (CDC) organized a challenge to predict the 2013–14 Unites States influenza season. Methods Challenge contestants were asked to forecast the start, peak, and intensity of the 2013–2014 influenza season at the national level and at any or all Health and Human Services (HHS) region level(s). The challenge ran from December 1, 2013–March 27, 2014; contestants were required to submit 9 biweekly forecasts at the national level to be eligible. The selection of the winner was based on expert evaluation of the methodology used to make the prediction and the accuracy of the prediction as judged against the U.S. Outpatient Influenza-like Illness Surveillance Network (ILINet). Results Nine teams submitted 13 forecasts for all required milestones. The first forecast was due on December 2, 2013; 3/13 forecasts received correctly predicted the start of the influenza season within one week, 1/13 predicted the peak within 1 week, 3/13 predicted the peak ILINet percentage within 1 %, and 4/13 predicted the season duration within 1 week. For the prediction due on December 19, 2013, the number of forecasts that correctly forecasted the peak week increased to 2/13, the peak percentage to 6/13, and the duration of the season to 6/13. As the season progressed, the forecasts became more stable and were closer to the season milestones. Conclusion Forecasting has become technically feasible, but further efforts are needed to improve forecast accuracy so that policy makers can reliably use these predictions. CDC and challenge contestants plan to build upon the methods developed during this contest to improve the accuracy of influenza forecasts. Electronic supplementary material The online version of this article (doi:10.1186/s12879-016-1669-x) contains supplementary material, which is available to authorized users.

Published
2016
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45. Fair data flows scheduling schema for multihop wireless ad hoc networks

Author

Salarian, Hamidreza, Khadivi, Pejman, Salarian, Hamidreza, and Khadivi, Pejman

Abstract

One of the most critical problems in multihop wireless networks is the fair allocation of bandwidth among different nodes. Although there are significant researches on the fairness issues in single-hop wireless networks, research on multihop fairness rarely found in the literature. A user in multi-hop network, besides the contention with other nodes to obtain the channel in physical layer, must find a solution for the inevitable contention between its own and the relayed traffic in the network layer. Accordingly, a suitable mechanism is needed to schedule data flows in network layer fairly. In this paper, a new algorithm is proposed which tries to allocate node’s bandwidth fairly between different contention traffic flows. The main purpose of this algorithm, named HBPQ (History Based Priority Queuing) is the prevention of starvation occurrence for any active flow in the network. HBPQ uses a satisfaction function to measure the user’s gratifications and tries to bring close the satisfaction of users. If HBPQ is used for flow scheduling in multihop wireless ad-hoc networks, the simulation results show that each active network’s flow, receives a throughput proportional to distance between its source and destination and existing traffic load on its traversed path.

Published
2010

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