This document discusses potential topics for a communication thesis using MATLAB. It lists several major toolboxes and technologies in communication systems that could be modeled, including RF impairment modeling, LDPC decoders, OFDM, MIMO, satellite technologies, Bluetooth, RFID, and Wi-Fi. It also provides examples of modern MATLAB communication thesis topics, such as a wireless chat system between PCs, a weather station watching system, camera location system, industrial alarm and protection systems, and a taxi monitoring system. Students are encouraged to contact the website for more information on developing a communication thesis with MATLAB.
Communication System Projects and Dynamic FieldsPhdtopiccom
DYNAMIC RESEARCH FIELDS IN COMMUNICATION SYSTEM PROJECTS
PROMINENT RESEARCH IDEAS IN WIRELESS COMMUNICATION PROJECTS
EFFECTIVE RESEARCH NOTIONS IN WIRELESS COMMUNICATION PROJECTS
ISI Journals Paper Publication GuidancePhdtopiccom
Major research areas in wireless networking include OFDMA communication, terahertz communication, cognitive radio networks, millimeter wave communication, and wireless sensor networks. Potential topics discussed for ISI journal publication include mmWave communication in cognitive radio network-vehicular ad-hoc network architectures, routing and interface minimization, beam forming, using blockchain technology for security and privacy in Internet of Things transactions, and secure service discovery across multiple domains. Key areas of research in Internet of Things discussed are service discovery, smart grids, Internet of vehicles, and cyber security.
This document outlines key areas in image processing, networking, and cloud computing. It also advertises buying a PhD paper writing service. The areas of image processing discussed are face and iris recognition, fingerprint recognition, finger vein recognition, and bio-metric authentication and forgery detection. Major points in networking include WBAN, CRN with VANET, CRN, 5G with MIMO, and Wi-Fi, Wi-Max and LTE. Prime notes of cloud computing are hybrid clouds, cloud with other integrated domains, power optimization, work load balancing, and mobile computing. The document concludes by stating that buying a PhD paper writing service is a best option for knowledge hungry scholars.
This document discusses potential topics for a communication thesis using MATLAB. It lists several major toolboxes and technologies in communication systems that could be modeled, including RF impairment modeling, LDPC decoders, OFDM, MIMO, satellite technologies, Bluetooth, RFID, and Wi-Fi. It also provides examples of modern MATLAB communication thesis topics, such as a wireless chat system between PCs, a weather station watching system, camera location system, industrial alarm and protection systems, and a taxi monitoring system. Students are encouraged to contact the website for more information on developing a communication thesis with MATLAB.
Communication System Projects and Dynamic FieldsPhdtopiccom
DYNAMIC RESEARCH FIELDS IN COMMUNICATION SYSTEM PROJECTS
PROMINENT RESEARCH IDEAS IN WIRELESS COMMUNICATION PROJECTS
EFFECTIVE RESEARCH NOTIONS IN WIRELESS COMMUNICATION PROJECTS
ISI Journals Paper Publication GuidancePhdtopiccom
Major research areas in wireless networking include OFDMA communication, terahertz communication, cognitive radio networks, millimeter wave communication, and wireless sensor networks. Potential topics discussed for ISI journal publication include mmWave communication in cognitive radio network-vehicular ad-hoc network architectures, routing and interface minimization, beam forming, using blockchain technology for security and privacy in Internet of Things transactions, and secure service discovery across multiple domains. Key areas of research in Internet of Things discussed are service discovery, smart grids, Internet of vehicles, and cyber security.
This document outlines key areas in image processing, networking, and cloud computing. It also advertises buying a PhD paper writing service. The areas of image processing discussed are face and iris recognition, fingerprint recognition, finger vein recognition, and bio-metric authentication and forgery detection. Major points in networking include WBAN, CRN with VANET, CRN, 5G with MIMO, and Wi-Fi, Wi-Max and LTE. Prime notes of cloud computing are hybrid clouds, cloud with other integrated domains, power optimization, work load balancing, and mobile computing. The document concludes by stating that buying a PhD paper writing service is a best option for knowledge hungry scholars.
Chandravijay Bharati is a Communication System Engineer with expertise in C Programming, Python, HFSS, CST, Microwave Studio, Vector Network Analyzers, MATLAB, and Spectrum Analyzers. He has skills in LTE, 2G, 3G, RF antennas, wireless communication, and optical communication. He holds an M.Tech in Communication Systems from NIT Surat and a B.Tech in Electronics & Communication from VBS Purvanchal University Jaunpur. His work experience includes LTE protocol training and teaching assistant roles focused on optical communication, radio frequency communication, and related labs. His M.Tech dissertation involved a miniaturized Koch snowflake fractal antenna and his projects also include
This document discusses potential thesis topics on wireless networks. It outlines six modern research zones in wireless networks including optical networks, vehicular networks, and cognitive radio networking. Five topical research fields are also listed, such as sensor, wireless, mobile and ad hoc networks. Finally, the document presents six foremost technologies in wireless networks like connected sensors, smarter smartphones, green communications, and cognitive networks and big data.
This document lists potential Weka project titles and topics. It includes sections on recent Weka project titles, notable subjects in Weka projects, and effective notions in Weka projects. Some example project titles are breast cancer prediction using blood tests, texture-based image classification in CT scans, and keystroke dynamics for password authentication. Notable Weka project topics discussed are data preprocessing, parameter optimization, clustering and classification, large dataset processing, and knowledge flow construction. The document ends by providing contact information for the Weka project website.
Project Topics for Masters in Information TechnologyPhdtopiccom
This document lists potential project topics for a Masters in Information Technology. It includes 5 relevant IT project titles focused on areas like localization using deep learning, reducing nonadherence risk with artificial intelligence, and machine learning for histologic grading. It also outlines 4 key points about artificial intelligence including dealing with complexity, understanding and predicting with unsupervised learning, autonomous actions using event driven contexts, and the scope of research purposes in data science evolution. Finally, it mentions some examples of intelligent applications in IT like virtual assistance, smart appliances, enterprise apps, medical devices, and autonomous vehicles.
International Journal of Wireless Communications(IJWCS)is a open access journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. Authors are solicited to contribute to this journal by submitting articles that illustrate research results, projects, surveying works and industrial experiences that describe significant advances in the Wireless Communications.
International Journal of Wireless Communications (IJWCS)ijfcst journal
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced wireless & mobile networking concepts and establishing new collaborations in these areas.
International Journal of Wireless Communications (IJWCS)ijfcst journal
The International Journal of Wireless Communications (IJWCS) is an open access journal that publishes articles on new developments in wireless communications. The journal covers technical and practical aspects of topics such as 4G/5G cellular systems, cognitive radio, wireless sensor networks, and machine learning applications for wireless networks. Authors are invited to submit original research papers and project reports before July 22, 2020 via the journal's online submission system. Papers will be reviewed and authors notified of acceptance by August 25, 2020.
The document discusses potential topics for network security projects, including:
1. Stochastic multi-objective frameworks in microgrids and improved network constrained UC models for leveraging systems.
2. Secure consensus control in multi-agent systems and methodologies for virtual machine network data investigation.
3. Optimal power allocation and maximum secrecy rate in MISOME systems and multi-objective optimization for efficient gas pipeline recovery.
International Journal of Wireless Communications(IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications.
Project Based on MATLAB for ECE Research AssistanceMatlab Simulation
Matlab projects for ECE students are proposed in areas like wireless networking, communication systems, and IoT concepts. Wireless networking projects may involve content centric networks, adhoc networks, cognitive radio, and software defined edge networks. Communication systems projects can focus on D2D/M2M resource allocation, secure network slicing, IEEE 802.11ax/ah, and 6TiSCH. IoT concept projects may cover smart factory automation, smart parking, I2C protocol for auto dialing, fog-assisted healthcare, and home appliance automation.
Chandravijay Bharati is a Communication System Engineer with expertise in C Programming, Python, HFSS, CST, Microwave Studio, Vector Network Analyzers, MATLAB, and Spectrum Analyzers. He has skills in LTE, 2G, 3G, RF antennas, wireless communication, and optical communication. He holds an M.Tech in Communication Systems from NIT Surat and a B.Tech in Electronics & Communication from VBS Purvanchal University Jaunpur. His work experience includes LTE protocol training and teaching assistant roles focused on optical communication, radio frequency communication, and related labs. His M.Tech dissertation involved a miniaturized Koch snowflake fractal antenna and his projects also include
This document discusses potential thesis topics on wireless networks. It outlines six modern research zones in wireless networks including optical networks, vehicular networks, and cognitive radio networking. Five topical research fields are also listed, such as sensor, wireless, mobile and ad hoc networks. Finally, the document presents six foremost technologies in wireless networks like connected sensors, smarter smartphones, green communications, and cognitive networks and big data.
This document lists potential Weka project titles and topics. It includes sections on recent Weka project titles, notable subjects in Weka projects, and effective notions in Weka projects. Some example project titles are breast cancer prediction using blood tests, texture-based image classification in CT scans, and keystroke dynamics for password authentication. Notable Weka project topics discussed are data preprocessing, parameter optimization, clustering and classification, large dataset processing, and knowledge flow construction. The document ends by providing contact information for the Weka project website.
Project Topics for Masters in Information TechnologyPhdtopiccom
This document lists potential project topics for a Masters in Information Technology. It includes 5 relevant IT project titles focused on areas like localization using deep learning, reducing nonadherence risk with artificial intelligence, and machine learning for histologic grading. It also outlines 4 key points about artificial intelligence including dealing with complexity, understanding and predicting with unsupervised learning, autonomous actions using event driven contexts, and the scope of research purposes in data science evolution. Finally, it mentions some examples of intelligent applications in IT like virtual assistance, smart appliances, enterprise apps, medical devices, and autonomous vehicles.
International Journal of Wireless Communications(IJWCS)is a open access journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. Authors are solicited to contribute to this journal by submitting articles that illustrate research results, projects, surveying works and industrial experiences that describe significant advances in the Wireless Communications.
International Journal of Wireless Communications (IJWCS)ijfcst journal
International Journal of Wireless Communications (IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications. The goal of this journal is to bring together researchers and practitioners from academia and industry to focus on advanced wireless & mobile networking concepts and establishing new collaborations in these areas.
International Journal of Wireless Communications (IJWCS)ijfcst journal
The International Journal of Wireless Communications (IJWCS) is an open access journal that publishes articles on new developments in wireless communications. The journal covers technical and practical aspects of topics such as 4G/5G cellular systems, cognitive radio, wireless sensor networks, and machine learning applications for wireless networks. Authors are invited to submit original research papers and project reports before July 22, 2020 via the journal's online submission system. Papers will be reviewed and authors notified of acceptance by August 25, 2020.
The document discusses potential topics for network security projects, including:
1. Stochastic multi-objective frameworks in microgrids and improved network constrained UC models for leveraging systems.
2. Secure consensus control in multi-agent systems and methodologies for virtual machine network data investigation.
3. Optimal power allocation and maximum secrecy rate in MISOME systems and multi-objective optimization for efficient gas pipeline recovery.
International Journal of Wireless Communications(IJWCS) is a bi monthly open access peer-reviewed journal that publishes articles which contribute new results in all areas of Wireless Communications. The journal focuses on all technical and practical aspects of Wireless Communications.
Project Based on MATLAB for ECE Research AssistanceMatlab Simulation
Matlab projects for ECE students are proposed in areas like wireless networking, communication systems, and IoT concepts. Wireless networking projects may involve content centric networks, adhoc networks, cognitive radio, and software defined edge networks. Communication systems projects can focus on D2D/M2M resource allocation, secure network slicing, IEEE 802.11ax/ah, and 6TiSCH. IoT concept projects may cover smart factory automation, smart parking, I2C protocol for auto dialing, fog-assisted healthcare, and home appliance automation.
- The document discusses 5G technology and its features, including its ability to greatly increase wireless network speeds and connectivity. It provides an overview of 5G's history and development, motivations, applications in areas like healthcare and autonomous vehicles, and its system architecture using different frequency bands. While 5G enables major improvements in areas like speed and latency, challenges remain regarding its new infrastructure requirements and the need to replace older devices.
5G networks aim to provide extreme broadband speeds, ultralow latency, and ultrareliable connectivity. Key 5G technologies include dense networks of small cells using millimeter wave technologies and massive MIMO antenna arrays. New 5G architectures and algorithms are required for technologies like hybrid beamforming and will affect antenna design, RF electronics, and baseband processing. Rapid prototyping using hardware testbeds allows for quick design iteration and field testing of new 5G concepts.
5G networks aim to provide extreme broadband speeds, ultralow latency, and ultrareliable connectivity. Key 5G technologies include dense networks of small cells using millimeter wave technologies and massive MIMO antenna arrays. New 5G architectures and algorithms are required for technologies like hybrid beamforming and will affect antenna design, RF electronics, and baseband processing. Rapid prototyping using hardware testbeds allows for quick design iteration and field testing of new 5G concepts.
5G is the next generation of mobile networks that will provide significantly faster speeds and lower latency compared to previous standards. 5G aims to integrate current and future networks to create a multi-bandwidth system capable of speeds over 1 Gbps with flexible bandwidth between 5-20 MHz. Key applications of 5G include enhanced mobile broadband, massive machine type communications, and ultra-reliable low latency communications. 5G networks will utilize technologies like massive MIMO and beamforming to meet performance requirements such as peak rates up to 20 Gbps and support for over a million connections per square meter.
5G technology enables three key services:
1) Enhanced mobile broadband provides high data transmission rates for streaming high-resolution video, augmented reality, and online gaming.
2) Ultra-reliable low latency communications meets exacting requirements for latency and reliability needed for applications like autonomous vehicles.
3) Massive machine-type communications supports connectivity for a very large number of devices that intermittently transmit small amounts of data, enabling growth in IoT.
NB-IoT: Pros and Cons of the new LPWA Radio Technology M2M Alliance e.V.
This document provides an overview and comparison of different Low Power Wide Area Network (LPWA) technologies, focusing on Narrowband IoT (NB-IoT). It discusses how NB-IoT is a 3GPP standardized LPWA technology that was developed for IoT applications. It can support a wide range of use cases but is not suitable for time-critical or data-intensive applications. The document also outlines some of the pros and cons of the NB-IoT standard.
Last update: Feb 7, 2021
You are not a system engineer, but knowing the basics of 5G will help you make important decisions in everything from smartphones to smart homes.
At present 5G is being launched in some cities in the United States. It is an advanced wireless technology that was initially used in conjunction with the existing 4G network, and then developed into a completely independent network in subsequent versions and coverage expansion.
The impact of 5G technology is huge.
No matter whether you are technically inclined or not, you cannot escape its influence. within the next few years 5G is predicted to be liable for $13.2 trillion of worldwide economic output also as 22.3 million new jobs.
5G broadband standards :
It must implement a lean signaling design
It must provide connectivity for the web of things (IoT)
Enforces strict data transmission requirements
Improved beamforming that permits signals to be propagated to a bigger set of end points
Must use adaptive bandwidth, which allows devices to modify to a low-bandwidth and lower power whenever possible, saving energy for when higher bandwidths are necessary
5G Training for Non-Tech Professionals by Tonex
The 5G Training for Non-Tech Professionals introduce the overview of the 5G market and basic technologies and technologies. This course was designed with non-technical professionals in mind, providing daily examples of the complexity and competitive landscape of the industry.
Why do you have to choose Tonex?
Most importantly, 5G training for non-technical professionals provides important insights on the rapidly changing and dynamic competitive landscape, regulations and the impact of 5G technology. Like all our trainings, this training is led by world-class lecturers, who are experts in their respective fields and bring real experience to the classroom.
Topics included:
The key concept behind 5G technology
Evolution from 4G to 5G
3GPP 5G wireless network
ITU IMT2020 5G requirements
5G-NR and enhancements to traditional 4G OFDM/OFDMA
Universal Filtering Multi-Carrier (UFMC)
Filter bank multi-carrier (FBMC)
Non-orthogonal multiple access (NOMA)
and more..
Training Objectives:
Learn the fundamentals of 5G wireless and mobile communication
Explain 5G use cases and applications
Be taught the key concepts behind 5G
Depict 5G architecture, deployments and realization
Illustrate 5G mobile communications trends
Learn about 5G NG-RAN architecture, backhaul, midhaul, and fronthaul transport
And more..
Course Outline:
Overview of 5G
Use cases and Applications in 5G
Advantages of 5G
5G Key Concepts
Key Enabling Technologies
Infrastructural and Hardware
Safety, Way in, Verification and Privacy Issues
Learn More:
https://www.tonex.com/training-courses/5g-wireless-training-for-non-engineers/
5G will connect billions of devices, things and people and bring an Ocean of new opportunities to cope with continuous traffic growth, low latency service expectations, energy efficiency, urban density and many other requirements demanding more and more innovation in the CMOS, MEMS and Protonics space but also many other areas.
5G networks will require new architectures and algorithms to achieve the high speeds and low latencies required. Massive MIMO with hundreds of antennas enables high-gain beamforming through narrow beams. Hybrid beamforming partitions beamforming between digital and RF domains to reduce costs. Behavioral simulation allows evaluation of antenna array and algorithm interactions to optimize performance.
This report describes the 5G requirements, use cases and technologies which are modelling the transformation of the core network and a roadmap how the 3GPP Evolve Packet Core can be modified to become the core for the 5G networks.
https://www.enoinstitute.com/product/5g-wireless-training-workshop/ - 5G Wireless Training Workshop (5th generation wireless systems or mobile networks) covers the next major phase of wireless and mobile telecommunications standards beyond the current 4G/IMT-Advanced standards. 5G wireless training introduces most dominant technologies and architectures in the near future which make up 5G technology. 5G networks are expected to roll out broadly after 2020.
5G Wireless Training Workshop – Resources:
5G Wireless Training Study Guide by Erik Dahlman , Stefan Parkvall, et al. – Paperback/Kindle/Amazon
5G Wireless Training Study Guide by Afif Osseiran , Jose F. Monserrat , et al. – Kindle / Paperback/Amazon
5G Wireless Training Study Guide by Ali Zaidi, Fredrik Athley, et al - Paperback/Amazon
5G Wireless Training Study Guide by Sassan Ahmadi – Paperback/Amazon
5G Wireless Training Prep Guide by VIAVI Solutions – Paperback/Kindle/Amazon
5G Wireless Training Study Guide by Gernot Hueber and Ali M. Niknejad - Paperback / Kindle/Amazon
5G Wireless Training Study Guide by Chris Johnson - Amazon Paperback
5G Wireless Training Study Guide by Laureano Gallardo - Kindle Amazon
5G Wireless Training Study Guide by Patrick Marsch , Ömer Bulakci, et al – Paperback Kindle/ Amazon
5G Wireless Training Study Guide by Devaki Chandramouli, Rainer Liebhart, et al – Kindle/Paperback / Amazon
5G Wireless Training Study Guide by Jyrki T. J. Penttinen – Paperback/ Amazon
5G Wireless Optimization Training Study Guide by Hossam Fattah - Kindle/Paperback/ Amazon
5G Wireless Training Study Guide by Abdelgader M. Abdalla, Jonathan Rodriguez , et al – Paperback/Kindle/Amazon
5G Wireless Training by Wan Lei, Anthony C.K. Soong, et al. - Kindle /Paperback/ Amazon
5G Wireless Training by Laureano Gallardo – Paperback/ Kindle/Amazon
5G Wireless Training Study Guide by Vincent W. S. Wong, Robert Schober, et al - Hardcover/Amazon
CSSLP Certification Training by Wade Sarver. – Kindle/Paperback/Amazon
CSSLP Certification Training by Ajit Singh – Paperback/Amazon
5G WIRELESS Training - Customize It (Onsite Only:
We can adapt this 5G wireless training course to your group’s background and work requirements at little to no added cost.
If you are familiar with some aspects of this 5G Wireless Training workshop course, we can omit or shorten their discussion.
We can adjust the emphasis placed on the various topics or build the 5G Wireless Training workshop around the mix of technologies of interest to you (including technologies other than those included in this outline).
If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the 5G Wireless Training workshop course in manner understandable to lay audiences.
We have seen all the mobile broadband technologies like 1G, 2G, 3G and most recent 4G and upcoming is 5G. And they were very successful and motivated by the need to meet the requirement of the mobile users.
Whitepaper: Mobile Networks in a smart digital future - deploying a platform ...Petr Nemec
The document discusses Siemens' platform for supporting Internet of Things (IoT) and Narrowband IoT (NB-IoT) networks. It describes the growth of IoT and the need for specialized core network functionality to handle the diverse communication needs of IoT devices. The Siemens platform provides standards-compliant implementations of Service Capability Exposure Function (SCEF), Machine Type Communication Interworking Function (MTC-IWF), and MTC Authentication, Authorization and Accounting (MTC-AAA) to securely interface IoT/MTC applications with cellular networks. It also features scalability, redundancy and virtualization.
The document provides details of 5G services offered by Bhadale Group of Companies, which consists of two subsidiary companies. The services include 5G network solutions, solutions for various network layers, 5G migration services, AI/ML solutions, designing 5G user equipment and applications, standardization solutions, industry-specific solutions, and 5G deployment models for private, public and hybrid networks. Key services are tabulated with descriptions of service features. Contact information is provided at the end.
LTE-M is an LTE technology for machines and IoT devices that provides 100x lower power consumption than 4G LTE, 5-10x greater coverage than 4G LTE, and 50% lower costs than 4G LTE. There are three complementary LPWA technologies - Cat-M1 and Cat-M2 for LTE-M with data rates up to 375kbps, and Cat-NB1 and Cat-NB2 for NB-IoT with lower data rates of 60kbps. These technologies are already available today on mobile networks globally and provide features such as 10-20 year battery life, 164dB link budgets, and the cost of 2G modules.
Big Data and Next Generation Network Challenges - PhdassistancePhD Assistance
This document provides an overview of next generation networks and big data challenges. It discusses how 5G networks will generate huge amounts of data from billions of wireless devices. Modern data analytics techniques like big data analytics will be needed to efficiently handle and extract insights from this large and diverse data. The document also outlines some of the key requirements for 5G networks, such as high data rates and low latency, and the underlying technologies being developed to achieve this, including millimeter wave spectrum and massive MIMO. It discusses open issues regarding security, privacy, and analyzing heterogeneous data sources.
This document discusses WiFi network simulator projects and tools. It lists several popular network simulators like NS-3, OPNET, Omnet++ and Qualnet that can be used for WiFi network simulation projects in MATLAB. It then provides examples of recent research topics conducted using WiFi network simulators, including energy efficient load balancing between LTE and WiFi networks and jamming-resistant frequency hopping in cognitive WiFi networks. Finally, it outlines some channel estimation models used in WiFi network simulator projects, such as energy optimization with delay sensitive traffic and transmit power adaptation in WiFi mesh networks for rescue operations.
This document discusses different types of network simulators that can be used in MATLAB. It lists several open-source simulators like NS-2, NS-3, Omnet++ and proprietary simulators like Qualnet and Opnet. It also mentions some current research projects using network simulation in areas like supercomputer networks, isolated power systems, rumor routing protocols and wireless applications. Finally, it provides examples of modern research topics involving areas like smart grids, mobile network simulation, caching systems and taxi dispatching.
Scilab is a free and open source software that can be used to solve many numerical and technical problems with just a few lines of code. It contains hundreds of mathematical and simulation functions across major areas like control systems, digital signal processing, and bio medical image processing. Some recent research projects that have used Scilab include analyzing ECG signal denoising using discrete wavelet transforms and studying wireless energy transfer in fading relay channels. For any questions, users can contact the tutorial providers via their website or phone number provided.
This document discusses thesis writing support using MATLAB code. It lists major domains where MATLAB is used like pattern recognition, artificial intelligence, digital signal processing, and neural networks. It offers services like plagiarism checking, proofreading, writing the abstract and literature survey, and implementation support for theses involving MATLAB code. Students can contact the website or phone number listed for assistance with their MATLAB-based theses.
This document discusses Thesis MATLAB code support for medical image processing and various research topics. It provides examples of MATLAB code projects for object detection, video processing, food dietary assessment, retinal analysis, and lung analysis. Recent code projects cover topics like mitosis detection in breast cancer images using deep learning, breast imaging using differential microwave techniques, hyperspectral image classification using manifold geometry and domain adaptation, image quality assessment using extreme learning machines and NMF, and tampering localization in digital forensics using maximal entropy random walks. Contact information is provided for technical support.
This document provides information on various student MATLAB projects in areas such as image processing, network security, steganography, watermarking, and cryptography. It lists common image processing projects like image and audio enhancement, digital music, image and speech recognition, and medical imaging. The document also discusses artificial neural network projects using MATLAB, including projects on balancing angle and area distortions, optimizing bezigons for clipart images, cell migration reconstruction and visualization, multivariate time-varying data visualization, and perception and Hebbian learning. It provides contact information for the MATLAB project guides.
The document discusses source code for Matlab projects available on a website. It lists categories of source code like vectors, matrices, and graphical functions. It then provides examples of source code project topics like techniques for graph layouts and eye tracking data visualization. Further, it lists recent high-tech project topics involving areas like virtual environments, data projection, graph algorithms, flow visualization, and regression analysis. It concludes by providing contact details for the website.
This document discusses small Matlab projects in various areas including biometric authentication using techniques like lip-print, finger vein, iris, palm print, and fingerprint authentication. It also lists some latest research topics that these small Matlab projects could cover, such as RNA-seq data quantification, muscle force-length modeling, landslide displacement prediction, depth map upsampling, and steerable catheter classification. Major research fields supported by the small Matlab projects include functional brain mapping, smartphone localization, compressed sensing, technology node modeling, and medical knowledge base construction. Contact details are provided at the end.
Simple MATLAB Projects for Students Research AssistanceMatlab Simulation
This document discusses simple MATLAB projects for students using Simulink. It describes modeling support, customizable block libraries, graphical editors, and automatic code generation for simulating bioinformatics, mechatronics, and electronics. It also discusses real-time simulation, code generation, signal processing, wireless systems, control systems, and state-based modeling toolboxes in Simulink. Example project topics highlighted include pointing and steering tasks with low latency, unsupervised feature learning with geometry representations, digital multiplexing with cluster-dot screens, and region-aware 3D warping for digital image-based rendering.
Scilab is an open source software for numerical computation and data processing. This document outlines several Scilab toolboxes and functions, modern research topics using Scilab, recent Scilab video tutorial projects, and contact information. Key toolboxes mentioned include the Particle Swarm optimization toolbox, Signal acquisition and instrument toolbox, Metanet graphs and network flow toolbox, and Artificial Neural Network Toolbox. Recent Scilab video tutorial projects highlighted detect air gap eccentricity in induction motors, remote mobile robot path planning, and fault diagnosis for medium voltage induction motors. Contact details are provided to learn more about Scilab video tutorials.
This document provides information on Scilab tutorial videos, including their uses in areas like neural networks, data mining, and control systems. Recent Scilab video projects discussed involve caching images, noise removal for lung cancer diagnosis, and automated cell segmentation. The document ends with contact information for the website providing Scilab tutorial videos.
Scilab is an open source software for modeling, computing, and simulation. The tutorial discusses Scilab's interface XCOS which allows for building and editing models, submodeling for reuse, and customizing blocks and palettes. It also supports simulation, code generation, and result visualization. Additional functionality covered includes basic operations, control, signal processing, and plotting astronomical data. Major supported areas are listed as LMI optimization, control, animations, instrument modeling, aerospace modeling, and more. Contact information is provided at the end.
Scilab is an open source software for numerical computation and programming that provides help and support for domains including wireless sensor networks, wireless communication, data mining, signal processing, and image processing. It also offers major applications support for digital signal processing tasks such as adaptive filtering, waveform quantization and compression, linear and circular convolution, and multirate signal processing. Additionally, Scilab provides programming help for notable research areas including computation offloading frameworks, lossy image compression using SVD coding, vehicle detection and classification using audio visual cues, multi-temporal fusion of CT images for liver cancer diagnosis, Gaussian filtering of compressively sensed images, and region-based multi-focus image fusion using spectral parameter variance.
The document discusses Scilab programming help and commands. It provides an overview of common Scilab commands like names, ans, what, who, and clear. It also lists recent Scilab programming projects involving topics like surface reconstruction, image segmentation, image registration, blind source separation, and image classification. Contact information is provided at the end for any additional Scilab programming help.
This document provides information about Scilab program help including strong concepts, programming functions, and recent research topics in Scilab. Some strong concepts discussed are image compression using multilevel thresholding, motion deblurring from a single image, and spatial domain color image enhancement. Programming functions covered include solving differential equations, matrices and vectors, plotting, and variables. Recent research topics mentioned are constant SNR predictive lossy hyper spectral image compression, computer aided skin lesion detection, open biplanar MRI using inverse boundary element method, and synthetic aperture imaging with thinned linear sensor arrays. Contact details are provided at the end.
The document discusses Scilab support and services provided by www.matlabsimulation.com, including Scilab installation support for various versions on Windows, Linux and Mac OS, Scilab toolboxes that provide additional functionality, and topics covered under the Scilab help project such as signal processing, image processing, and applications in fields like ground penetrating radar and telecommunications. Contact details are provided at the end.
Andreas Schleicher presents PISA 2022 Volume III - Creative Thinking - 18 Jun...EduSkills OECD
Andreas Schleicher, Director of Education and Skills at the OECD presents at the launch of PISA 2022 Volume III - Creative Minds, Creative Schools on 18 June 2024.
Temple of Asclepius in Thrace. Excavation resultsKrassimira Luka
The temple and the sanctuary around were dedicated to Asklepios Zmidrenus. This name has been known since 1875 when an inscription dedicated to him was discovered in Rome. The inscription is dated in 227 AD and was left by soldiers originating from the city of Philippopolis (modern Plovdiv).
How to Manage Reception Report in Odoo 17Celine George
A business may deal with both sales and purchases occasionally. They buy things from vendors and then sell them to their customers. Such dealings can be confusing at times. Because multiple clients may inquire about the same product at the same time, after purchasing those products, customers must be assigned to them. Odoo has a tool called Reception Report that can be used to complete this assignment. By enabling this, a reception report comes automatically after confirming a receipt, from which we can assign products to orders.
CapTechTalks Webinar Slides June 2024 Donovan Wright.pptxCapitolTechU
Slides from a Capitol Technology University webinar held June 20, 2024. The webinar featured Dr. Donovan Wright, presenting on the Department of Defense Digital Transformation.
A Free 200-Page eBook ~ Brain and Mind Exercise.pptxOH TEIK BIN
(A Free eBook comprising 3 Sets of Presentation of a selection of Puzzles, Brain Teasers and Thinking Problems to exercise both the mind and the Right and Left Brain. To help keep the mind and brain fit and healthy. Good for both the young and old alike.
Answers are given for all the puzzles and problems.)
With Metta,
Bro. Oh Teik Bin 🙏🤓🤔🥰
How to Setup Default Value for a Field in Odoo 17Celine George
In Odoo, we can set a default value for a field during the creation of a record for a model. We have many methods in odoo for setting a default value to the field.
1. W I R E L E S S C O M M U N I C A T I O N
P R O J E C T S
www.matlabsimulation.com/wireless-communication-projects/
2. Innovative Concepts in 6G and B5G
6G and B5G is the future of wireless communication. Best topic under this are stated below,
Small cell
management and
optimization
Multi-RAT secure
slicing in HetNets
Traffic
differentiation for
QoS and also QoE
Service oriented
interoperability in
B5G
Coexistence of
OFDMA and
NAMO
Ultra-wide band
for multimedia
streaming
3. Wireless Communication - MIMO Themes
There are plenty of novelties to picture in MIMO communication. some of them are listed,
Cognitive-
MIMO design
for mobiles
Modulation
Recognition for next
gen
Uplink and Downlink
Synchronization
Ranging Code
Detection in OFDMA
MU-MIMO for industrial
IoT
Interference Avoidance
in Gaussian MIMO
4. Wireless Communication - Matlab Toolboxes
Here we listed matlab toolboxes which is used in wireless communication,
Antenna Toolbox: For
E2E MIMO link and
Beamforming
5G Toolbox: Along
with DL, NB-IoT
WLAN Toolbox: For
OFDMA and also for
IEEE 802.11ax
LTE Toolbox: Support
for 1024-QAM and
LTE-M
5. Wireless Communication - NS-3 Modules
NS-3 Modules used for wireless communication are mentioned below,
WI-Fi Module: Support
all PHY and also MAC
6LoWPAN: Apt for IoT,
IIoT and RPL
LTE Module: Support
for EPC and MIMO
OpenFlow Switch
Support: To model
SDN