INTERNATIONAL WORKSHOP ON 5G & 4G LTE from 10th MAY to 14th MAY AT CHANDIGARH, INDIA
TELCOMA has been providing fanatical services to the Telecom Industry since 2008. More than 2,05,000 people have recommended our Training & Certifications Year 2018 marks our 10 years in business and we have come up with a world class event for Corporates, Government, Academicians and Students in which our experts will focus on the current and future generations of mobile wireless communications i.e 4G LTE & 5G.
Join TELCOMA 5G World 2018 & 4G World 2018 and you’ll gain access to powerful knowledge which will mark the beginning of wonderful transition in your career “Get brand-new telecom skills, switch careers, get salary raise and land promotions. Our professional trainings on top telecom technologies keeps skills high, costs low and business moving. Our training paths will help you prepare for industry-recognized certifications.”
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Details here https://telcomaglobal.com/p/5g-4g-workshop
This document discusses the network architecture of 5G mobile technology. It begins with an introduction to 5G and its evolution from 1G to 5G wireless standards. It then describes the 5 layers of the 5G network architecture, including the physical, open wireless architecture, network, open transport, and application layers. Next, it covers the hardware and software aspects of 5G, such as its use of ultra wideband networks and code division multiple access. It concludes by discussing some key features, advantages and applications of 5G technology.
This seminar discusses the evolution of mobile network generations from 1G to 5G. 5G is expected to offer speeds up to 1 Gbps, making it 10 times faster than previous generations. It will allow for complete wireless communication with almost no limitations. The key concepts of 5G include a real wireless world with no access or zone issues, the ability to simultaneously connect to multiple wireless technologies, smart radios, and IPv6 addressing. 5G will use technologies like ultra wide band networks, smart antennas, and code division multiple access. It is being designed as an open platform across network layers to provide the best quality of service at the lowest cost.
The document discusses the evolution of wireless communication technologies from 0G to 5G. It describes the key features and technologies of each generation including higher bandwidth and data transfer speeds. 5G is expected to offer data rates up to 10 Gbps for dense urban environments using technologies like massive MIMO, cloud computing, and an all-IP platform. The goals of 5G include achieving 10 to 100 times higher typical user data rates than current technologies.
The document discusses the evolution of wireless technologies from 1G to 5G, describing the major characteristics of each generation including their development timelines, data speeds, services offered, standards, and technologies used. It provides a comparison of the generations in terms of these features in a table. 5G is presented as the next major phase of mobile telecommunications offering speeds up to 1 Gbps to support new applications through a unified IP standard architecture.
This is the second part of my 5G project which consists of the architecture structure of 5G. What all it consists of, what all technologies it uses, what all layers it contain etc.
We are looking at the future of technology that has the structure of Nanocore, beneficial for future applications.
This document discusses the evolution of wireless technologies from 1G to 5G. It provides an overview of the key concepts, architecture, hardware, software and features of 5G. 5G is expected to offer speeds up to 1 Gbps, lower latency, and better reliability than previous generations. It will allow for applications like wearable devices, media independent handover, and pervasive networks. 5G aims to provide a unified global standard for wireless connectivity with high quality of service.
This document discusses technologies for future generations of wireless mobile communication networks. It describes 1st, 2nd, 3rd and 4th generation networks and their characteristics. It then focuses on technologies being developed for 5th generation networks, including OFDM, MIMO, software defined radio, and cognitive radio. It proposes a hierarchical network structure using macro cells, micro cells and pico cells. Key technologies discussed that could enable 5G networks include reconfigurable systems, distributed collaboration, and nanotechnology.
This document provides an overview of 5G wireless technology, including its network architecture, hardware, software, vision, features, challenges and development stages. It compares 1G to 5G technologies and discusses usage patterns. Key concepts discussed include a unified global standard, ubiquitous computing using cognitive radio, and high altitude platform stations. The document outlines the METIS project and stages of 5G development in Europe, South Korea, and by companies such as Samsung, Huawei, and NTT DoCoMo.
This document discusses the network architecture of 5G mobile technology. It begins with an introduction to 5G and its evolution from 1G to 5G wireless standards. It then describes the 5 layers of the 5G network architecture, including the physical, open wireless architecture, network, open transport, and application layers. Next, it covers the hardware and software aspects of 5G, such as its use of ultra wideband networks and code division multiple access. It concludes by discussing some key features, advantages and applications of 5G technology.
This seminar discusses the evolution of mobile network generations from 1G to 5G. 5G is expected to offer speeds up to 1 Gbps, making it 10 times faster than previous generations. It will allow for complete wireless communication with almost no limitations. The key concepts of 5G include a real wireless world with no access or zone issues, the ability to simultaneously connect to multiple wireless technologies, smart radios, and IPv6 addressing. 5G will use technologies like ultra wide band networks, smart antennas, and code division multiple access. It is being designed as an open platform across network layers to provide the best quality of service at the lowest cost.
The document discusses the evolution of wireless communication technologies from 0G to 5G. It describes the key features and technologies of each generation including higher bandwidth and data transfer speeds. 5G is expected to offer data rates up to 10 Gbps for dense urban environments using technologies like massive MIMO, cloud computing, and an all-IP platform. The goals of 5G include achieving 10 to 100 times higher typical user data rates than current technologies.
The document discusses the evolution of wireless technologies from 1G to 5G, describing the major characteristics of each generation including their development timelines, data speeds, services offered, standards, and technologies used. It provides a comparison of the generations in terms of these features in a table. 5G is presented as the next major phase of mobile telecommunications offering speeds up to 1 Gbps to support new applications through a unified IP standard architecture.
This is the second part of my 5G project which consists of the architecture structure of 5G. What all it consists of, what all technologies it uses, what all layers it contain etc.
We are looking at the future of technology that has the structure of Nanocore, beneficial for future applications.
This document discusses the evolution of wireless technologies from 1G to 5G. It provides an overview of the key concepts, architecture, hardware, software and features of 5G. 5G is expected to offer speeds up to 1 Gbps, lower latency, and better reliability than previous generations. It will allow for applications like wearable devices, media independent handover, and pervasive networks. 5G aims to provide a unified global standard for wireless connectivity with high quality of service.
This document discusses technologies for future generations of wireless mobile communication networks. It describes 1st, 2nd, 3rd and 4th generation networks and their characteristics. It then focuses on technologies being developed for 5th generation networks, including OFDM, MIMO, software defined radio, and cognitive radio. It proposes a hierarchical network structure using macro cells, micro cells and pico cells. Key technologies discussed that could enable 5G networks include reconfigurable systems, distributed collaboration, and nanotechnology.
This document provides an overview of 5G wireless technology, including its network architecture, hardware, software, vision, features, challenges and development stages. It compares 1G to 5G technologies and discusses usage patterns. Key concepts discussed include a unified global standard, ubiquitous computing using cognitive radio, and high altitude platform stations. The document outlines the METIS project and stages of 5G development in Europe, South Korea, and by companies such as Samsung, Huawei, and NTT DoCoMo.
5G is the next generation of mobile network technology that will provide higher data rates, lower latency, and better connectivity. It will offer data speeds of several gigabits per second, low latency, and the ability to connect several hundred thousand devices simultaneously. 5G uses new hardware and software architectures, like ultra wide band networks and code division multiple access, to achieve these capabilities and provide advantages like high quality services, global access, and high speed data transmission. 5G will enable new applications in areas like wearable devices, media, and the internet of things.
5G Technology Training and Certification by TELCOMA Global. Get Free 30 days trial to access all our 5G Training and other Telecom Technologies like 4G-LTE, 3G, 2G, Wimax etc
5G is the next generation of mobile internet connectivity offering faster speeds and more reliable connections than previous standards. It is expected to launch globally by 2020. 5G will provide average download speeds of 1GBps, allowing users to download films in seconds. It will require new network infrastructure using higher frequency bands and multiple antennas to transmit signals further. Pakistan is preparing to introduce 5G, with the government approving trials by telecom companies. Pakistan aims to be the first country in South Asia to launch a 5G network by 2020.
5G the Future of next Generation of communicationKarthik U
The document summarizes a technical seminar presentation on 5G technology. It discusses the objectives and introduction of 5G including its advantages over existing 4G systems such as higher data capacity up to 10 Gbps, lower latency of 1 millisecond, improved energy efficiency and more ubiquitous coverage. It describes the existing 4G system and its limitations. The proposed 5G system is outlined as delivering extreme broadband, ultra-robust and low latency connectivity through a combination of existing and novel radio access technologies integrated into a software-defined network architecture. Key aspects of 5G include possibilities enabled, versatile radio technologies used, its system of systems network architecture and a phased practical approach to deployment. Applications highlighted are unified global connectivity and the potential for
5G wireless is the next generation of mobile network technology that will offer significantly faster speeds and lower latency. It aims to provide speeds up to 1Gbps, around 10 times faster than 4G networks, and connect nearly all devices. The document traces the evolution of wireless technology from 1G in the 1980s with speeds up to 2.4kbps to 4G in 2010 with speeds up to 100Mbps. 5G is expected to be introduced in the 2020s and will offer global connectivity, dynamic information access, and applications powered by artificial intelligence at lower costs than previous generations.
Next generation wireless networks crash course : Tonex TrainingBryan Len
Next Generation Wireless Networks Crash Course is an innovative training program covering trends in today’s rapidly changing Wireless Industry. Topics including current and next generation 802.11 and 5G technologies, concepts, standardization activities, regulation, products and services.
Learn about:
Overview of Current and Future Wireless Technologies
Next generation wireless capability requirements
5G in the technology roadmap
Trends in Wireless Technologies including next generation 802.11& 5G
Fixed vs. Mobile Wireless Trends
5G Applications and Use Cases
Next generation 802.11 applications and usage scenarios
Next generation 802.11 and 5G deployment options
Concepts behind security, performance, interoperability and capacity
Next generation 802.11 and 5G building blocks, architectures and key enablers and components
Next generation 802.11 and 5G spectrum
Learning Objectives:
Upon completion of this course, the participant will:
Describe the fundamental concepts of LAN, PAN and BAN wireless technologies
Describe similarities and differences between Wireless LANs, Wireless PANs and Wireless BANs
Understand the fundamental concepts of 802.15.1, 802.15.4 and 802.15.6
Describe similarities and differences between RFID, Bluetooth, Bluetooth LE, ZigBee and 6LowPAN
Understand the fundamental concepts of 802.11a/b/g/n and 802.11ax,az,ay and ah
Understand the core concepts on 802.11 PHY and MAC layers
Understand ideas behind OFDM, MIMO spatial streams and Multi-user MIMO (MU-MIMO) features
Understand Modulation/Coding and Other elements/features behind 802.11
Understand PHY and MAC modifications for different versions and releases
List Coexistence mechanisms for different channels
List 802.11 scenarios and configurations
Describe 802.11ax futures and requirements
Describe 802.11az related positioning and location requirements
Describe 802.11ah futures and requirements
Describe 802.11ay: Enhanced Throughput for Operation in License-Exempt Bands above 45 GHz
Course Outline:
Executive Summary of Trends in Wireless Industry
Overview of Current and Future Wireless Technologies
Executive Summary of 5G
Executive Summary of IEEE 802.11
IEEE Std 802.11 Architecture
Principles behind 802.11a/b/g/n/c/ax/ah/y/z
802.11 Systems and Bands
Introduction to 802.11n and 802.11ac
Introduction to 802.11ax
Introduction to REVmc/Location
Introduction to 802.11ay (802.11 TGay)
Introduction to 802.11TGaz
Introduction to 802.11ah
Principles behind 5G Wireless
Market Drivers and Use Cases for 5G
Requirements for 5G
Regulatory Considerations Applied to 5G
Request more information. Visit Tonex.com link below
https://www.tonex.com/training-courses/next-generation-wireless-networks/
Network Architecture of 5G Mobile Tecnologyvineetkathan
This document provides an overview of the network architecture of 5G mobile technology. It discusses that 5G will have significantly higher bandwidth than 4G and will allow speeds up to 1 Gbps. The 5G network architecture is described as having physical and data link layers that make up the Open Wireless Architecture, as well as lower and upper network layers for routing data. It also covers the hardware and software requirements of 5G, such as the use of ultra wide band networks and software defined radio. Applications of 5G are expected to include global networks, wearable devices with AI, and enabling new technologies like 6th sense interfaces.
This document provides an overview of 5G networks including:
- 5G aims to deliver data rates of up to 10 Gbps, 100 Mbps in urban areas, and coverage everywhere with massive device connectivity and reduced power consumption.
- 5G will utilize spectrum from sub-1 GHz to 100 GHz including millimeter wave bands and enable new use cases across industries.
- Standardization is expected to begin in 2016 with commercial launches starting in 2020. Major players are conducting trials and collaborating globally to develop 5G technologies and architectures.
5G is the 5th generation of wireless technology that will offer faster speeds, increased bandwidth, and lower latency compared to previous generations. It aims to provide speeds over 1 Gbps, support a vastly greater number of connected devices, and enable new applications. Key technologies that will enable 5G include massive MIMO, ultra-dense networks, new multiple access techniques, support for all spectrum types, and new network architectures based on network function virtualization and software-defined networking. 5G will enable new use cases like connected vehicles, telemedicine, and the Internet of Things by supporting requirements for low latency, high reliability, and large connection densities.
This document provides an overview of 5G technology and its advantages over 4G LTE. It discusses the different 5G use cases like enhanced mobile broadband, massive IoT, and critical communications. It describes the evolution of radio technology including the use of new spectrum bands and massive MIMO. It also covers network architecture aspects such as centralized RAN deployments and functional splits between centralized and distributed units. The document is intended as a tutorial for IP engineers to understand 5G network capabilities and requirements.
Introduction and Evolution of 4G
System key components of 4G
Applications of 4G
Introduction and Evolution of 5G
Key Concepts & Features of 5G
Application of 5G
This document presents information on mobile network generations from 0G to 5G. It was presented by Gaurav Kant Yadav from Raffles University, Neemrana. The document defines each generation, the technologies used, key features and applications. 0G used early mobile phone systems while 1G used analog transmission. 2G introduced digital networks and SMS. 3G brought combined voice and data and higher speeds. 4G aims for speeds over 100 Mbps. 5G is expected to be the next major phase with speeds over 1 Gbps and capabilities like virtual reality applications and integrated wireless networks.
This document discusses the evolution of mobile phone technology from 0G to 6G. It provides details on the key features and technologies of each generation. 6G is described as providing terabit transmission speeds, zero distance connectivity, and availability in 2020. It will utilize technologies like smart antennas, ultra wideband radio, and fiber optic networks to allow for incredible data throughput and reduced lag for applications like gaming. The document concludes that 6G will be both user-centric and service-centric, representing the next step in connecting people worldwide through wireless networks.
5G Wireless Training & Technical Fundamentals Tonex
Last Update: Jan 25, 2021
5G Wireless Training by TONEX, A 3-day Technology Training Course
5G wireless training (5th generation wireless systems or mobile networks) covers 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 near future which make 5G technology. 5G networks are expected to roll out broadly after 2020.
Compared with 4G/LTE cellular systems, 5G wireless communication systems (5G) are expected to provide higher spectral and energy efficiency and area throughput growth. Learn the key 5G wireless communication networks cellular architecture and key technologies for 5G communication networks.
5G Training Learning Objectives
Upon completion of this course, the attendees are able to:
1.Describe what 5G is
2.List the 5G wireless features and their benefits (5G wireless communication networks)
3.Describe key 5G technology drivers and enablers of 5G
4.List 5G technology candidates in RAN/radio, transport, core networks, interoperability and services
5.List 5G Wireless Use Cases
6.List User-Driven 5G Requirements
7.Describe ITU 5G standards (IMT2020) along with NGMN alliance and 3GPP
8.Describe 3GPP LTE/LTE-A evolution towards 5G
9.Walk through current and future deployment of 5G scenarios
10.Co-Existence of LTE End-to-End Ecosystem with 5G
11.List similarities and differences between 5G Radio Access and LTE
Visit Tonex.com to learn more about 5G wireless training and courses, seminars
https://www.tonex.com/training-courses/5g-wireless-training/
This presentation referenced from different sources such as Huawei, Ericsson, Nokia, IEEE, among others was delivered during the IEEE Kenya Symposium 2018 at Riara University. The presentation was to give an update of 5G technology and demystify issues in 5G.
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/
This a small PPT on Introduction to 5G technology. In this PPT 5g introduced in very briefly. This is related to to 2017 5g according to 3GPP standards.
This document discusses the evolution to 5G networks. It begins by describing 4G network architecture including components like the Evolved Packet Core and IP Multimedia Subsystem. The roles of the Serving Gateway, PDN Gateway, and Mobility Management Entity in the 4G core network are explained. An architecture for 5G networks is then proposed, involving technologies like software-defined networking and network functions virtualization. Research topics for 5G include improved radio access networks, an efficient 5G core network, cloud computing and new applications. The presentation concludes by noting the need to study 5G requirements and issues to evolve current 4G networks to 5G.
This document provides a summary of the development of mobile networks from 0G to 5G. It discusses the key technologies, standards, deployments and applications of each generation including:
- 0G to 2G networks used analog signals while 2.5G introduced digital data services. 3G brought higher speeds and the ability to use the internet.
- 4G technologies like LTE and WiMAX provided faster broadband access to the internet. 5G is aiming for speeds over 1Gbps using beam division multiple access.
- Standards bodies like 3GPP, 3GPP2 and IEEE have developed the specifications for each generation as the technology has evolved from circuit switching to all IP packet networks.
-
The document discusses the evolution of wireless communication technologies from 1G to 5G. It provides details on the key features and capabilities of each generation. 1G allowed analog voice calls while 2G brought digital transmission. 2.5G introduced limited data capabilities. 3G enabled faster speeds and packet-switched data. 4G aims to provide broadband services universally. 5G is envisioned to offer virtually unlimited wireless communication with very high speeds and connectivity.
This document provides an overview of 5G technology and its history and evolution from previous generations (0G-4G). It discusses the key differences between 1G to 5G networks and their offered capabilities. 1G allowed analog voice calls, while 2G brought digital cellular networks and basic text/data. 3G enabled broadband connectivity and basic smartphone capabilities. 4G significantly increased speeds for mobile internet. 5G is expected to offer much faster speeds and lower latency to enable new applications like autonomous vehicles, remote surgery, and more. The document also covers 5G network architecture and some of the key concepts and features of 5G networks.
This is the report part 2 of presentation. It talks about the basic functional architecture, 5G architecture, 5G network layers and the hardware & software components of 5G.
5G is the next generation of mobile network technology that will provide higher data rates, lower latency, and better connectivity. It will offer data speeds of several gigabits per second, low latency, and the ability to connect several hundred thousand devices simultaneously. 5G uses new hardware and software architectures, like ultra wide band networks and code division multiple access, to achieve these capabilities and provide advantages like high quality services, global access, and high speed data transmission. 5G will enable new applications in areas like wearable devices, media, and the internet of things.
5G Technology Training and Certification by TELCOMA Global. Get Free 30 days trial to access all our 5G Training and other Telecom Technologies like 4G-LTE, 3G, 2G, Wimax etc
5G is the next generation of mobile internet connectivity offering faster speeds and more reliable connections than previous standards. It is expected to launch globally by 2020. 5G will provide average download speeds of 1GBps, allowing users to download films in seconds. It will require new network infrastructure using higher frequency bands and multiple antennas to transmit signals further. Pakistan is preparing to introduce 5G, with the government approving trials by telecom companies. Pakistan aims to be the first country in South Asia to launch a 5G network by 2020.
5G the Future of next Generation of communicationKarthik U
The document summarizes a technical seminar presentation on 5G technology. It discusses the objectives and introduction of 5G including its advantages over existing 4G systems such as higher data capacity up to 10 Gbps, lower latency of 1 millisecond, improved energy efficiency and more ubiquitous coverage. It describes the existing 4G system and its limitations. The proposed 5G system is outlined as delivering extreme broadband, ultra-robust and low latency connectivity through a combination of existing and novel radio access technologies integrated into a software-defined network architecture. Key aspects of 5G include possibilities enabled, versatile radio technologies used, its system of systems network architecture and a phased practical approach to deployment. Applications highlighted are unified global connectivity and the potential for
5G wireless is the next generation of mobile network technology that will offer significantly faster speeds and lower latency. It aims to provide speeds up to 1Gbps, around 10 times faster than 4G networks, and connect nearly all devices. The document traces the evolution of wireless technology from 1G in the 1980s with speeds up to 2.4kbps to 4G in 2010 with speeds up to 100Mbps. 5G is expected to be introduced in the 2020s and will offer global connectivity, dynamic information access, and applications powered by artificial intelligence at lower costs than previous generations.
Next generation wireless networks crash course : Tonex TrainingBryan Len
Next Generation Wireless Networks Crash Course is an innovative training program covering trends in today’s rapidly changing Wireless Industry. Topics including current and next generation 802.11 and 5G technologies, concepts, standardization activities, regulation, products and services.
Learn about:
Overview of Current and Future Wireless Technologies
Next generation wireless capability requirements
5G in the technology roadmap
Trends in Wireless Technologies including next generation 802.11& 5G
Fixed vs. Mobile Wireless Trends
5G Applications and Use Cases
Next generation 802.11 applications and usage scenarios
Next generation 802.11 and 5G deployment options
Concepts behind security, performance, interoperability and capacity
Next generation 802.11 and 5G building blocks, architectures and key enablers and components
Next generation 802.11 and 5G spectrum
Learning Objectives:
Upon completion of this course, the participant will:
Describe the fundamental concepts of LAN, PAN and BAN wireless technologies
Describe similarities and differences between Wireless LANs, Wireless PANs and Wireless BANs
Understand the fundamental concepts of 802.15.1, 802.15.4 and 802.15.6
Describe similarities and differences between RFID, Bluetooth, Bluetooth LE, ZigBee and 6LowPAN
Understand the fundamental concepts of 802.11a/b/g/n and 802.11ax,az,ay and ah
Understand the core concepts on 802.11 PHY and MAC layers
Understand ideas behind OFDM, MIMO spatial streams and Multi-user MIMO (MU-MIMO) features
Understand Modulation/Coding and Other elements/features behind 802.11
Understand PHY and MAC modifications for different versions and releases
List Coexistence mechanisms for different channels
List 802.11 scenarios and configurations
Describe 802.11ax futures and requirements
Describe 802.11az related positioning and location requirements
Describe 802.11ah futures and requirements
Describe 802.11ay: Enhanced Throughput for Operation in License-Exempt Bands above 45 GHz
Course Outline:
Executive Summary of Trends in Wireless Industry
Overview of Current and Future Wireless Technologies
Executive Summary of 5G
Executive Summary of IEEE 802.11
IEEE Std 802.11 Architecture
Principles behind 802.11a/b/g/n/c/ax/ah/y/z
802.11 Systems and Bands
Introduction to 802.11n and 802.11ac
Introduction to 802.11ax
Introduction to REVmc/Location
Introduction to 802.11ay (802.11 TGay)
Introduction to 802.11TGaz
Introduction to 802.11ah
Principles behind 5G Wireless
Market Drivers and Use Cases for 5G
Requirements for 5G
Regulatory Considerations Applied to 5G
Request more information. Visit Tonex.com link below
https://www.tonex.com/training-courses/next-generation-wireless-networks/
Network Architecture of 5G Mobile Tecnologyvineetkathan
This document provides an overview of the network architecture of 5G mobile technology. It discusses that 5G will have significantly higher bandwidth than 4G and will allow speeds up to 1 Gbps. The 5G network architecture is described as having physical and data link layers that make up the Open Wireless Architecture, as well as lower and upper network layers for routing data. It also covers the hardware and software requirements of 5G, such as the use of ultra wide band networks and software defined radio. Applications of 5G are expected to include global networks, wearable devices with AI, and enabling new technologies like 6th sense interfaces.
This document provides an overview of 5G networks including:
- 5G aims to deliver data rates of up to 10 Gbps, 100 Mbps in urban areas, and coverage everywhere with massive device connectivity and reduced power consumption.
- 5G will utilize spectrum from sub-1 GHz to 100 GHz including millimeter wave bands and enable new use cases across industries.
- Standardization is expected to begin in 2016 with commercial launches starting in 2020. Major players are conducting trials and collaborating globally to develop 5G technologies and architectures.
5G is the 5th generation of wireless technology that will offer faster speeds, increased bandwidth, and lower latency compared to previous generations. It aims to provide speeds over 1 Gbps, support a vastly greater number of connected devices, and enable new applications. Key technologies that will enable 5G include massive MIMO, ultra-dense networks, new multiple access techniques, support for all spectrum types, and new network architectures based on network function virtualization and software-defined networking. 5G will enable new use cases like connected vehicles, telemedicine, and the Internet of Things by supporting requirements for low latency, high reliability, and large connection densities.
This document provides an overview of 5G technology and its advantages over 4G LTE. It discusses the different 5G use cases like enhanced mobile broadband, massive IoT, and critical communications. It describes the evolution of radio technology including the use of new spectrum bands and massive MIMO. It also covers network architecture aspects such as centralized RAN deployments and functional splits between centralized and distributed units. The document is intended as a tutorial for IP engineers to understand 5G network capabilities and requirements.
Introduction and Evolution of 4G
System key components of 4G
Applications of 4G
Introduction and Evolution of 5G
Key Concepts & Features of 5G
Application of 5G
This document presents information on mobile network generations from 0G to 5G. It was presented by Gaurav Kant Yadav from Raffles University, Neemrana. The document defines each generation, the technologies used, key features and applications. 0G used early mobile phone systems while 1G used analog transmission. 2G introduced digital networks and SMS. 3G brought combined voice and data and higher speeds. 4G aims for speeds over 100 Mbps. 5G is expected to be the next major phase with speeds over 1 Gbps and capabilities like virtual reality applications and integrated wireless networks.
This document discusses the evolution of mobile phone technology from 0G to 6G. It provides details on the key features and technologies of each generation. 6G is described as providing terabit transmission speeds, zero distance connectivity, and availability in 2020. It will utilize technologies like smart antennas, ultra wideband radio, and fiber optic networks to allow for incredible data throughput and reduced lag for applications like gaming. The document concludes that 6G will be both user-centric and service-centric, representing the next step in connecting people worldwide through wireless networks.
5G Wireless Training & Technical Fundamentals Tonex
Last Update: Jan 25, 2021
5G Wireless Training by TONEX, A 3-day Technology Training Course
5G wireless training (5th generation wireless systems or mobile networks) covers 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 near future which make 5G technology. 5G networks are expected to roll out broadly after 2020.
Compared with 4G/LTE cellular systems, 5G wireless communication systems (5G) are expected to provide higher spectral and energy efficiency and area throughput growth. Learn the key 5G wireless communication networks cellular architecture and key technologies for 5G communication networks.
5G Training Learning Objectives
Upon completion of this course, the attendees are able to:
1.Describe what 5G is
2.List the 5G wireless features and their benefits (5G wireless communication networks)
3.Describe key 5G technology drivers and enablers of 5G
4.List 5G technology candidates in RAN/radio, transport, core networks, interoperability and services
5.List 5G Wireless Use Cases
6.List User-Driven 5G Requirements
7.Describe ITU 5G standards (IMT2020) along with NGMN alliance and 3GPP
8.Describe 3GPP LTE/LTE-A evolution towards 5G
9.Walk through current and future deployment of 5G scenarios
10.Co-Existence of LTE End-to-End Ecosystem with 5G
11.List similarities and differences between 5G Radio Access and LTE
Visit Tonex.com to learn more about 5G wireless training and courses, seminars
https://www.tonex.com/training-courses/5g-wireless-training/
This presentation referenced from different sources such as Huawei, Ericsson, Nokia, IEEE, among others was delivered during the IEEE Kenya Symposium 2018 at Riara University. The presentation was to give an update of 5G technology and demystify issues in 5G.
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/
This a small PPT on Introduction to 5G technology. In this PPT 5g introduced in very briefly. This is related to to 2017 5g according to 3GPP standards.
This document discusses the evolution to 5G networks. It begins by describing 4G network architecture including components like the Evolved Packet Core and IP Multimedia Subsystem. The roles of the Serving Gateway, PDN Gateway, and Mobility Management Entity in the 4G core network are explained. An architecture for 5G networks is then proposed, involving technologies like software-defined networking and network functions virtualization. Research topics for 5G include improved radio access networks, an efficient 5G core network, cloud computing and new applications. The presentation concludes by noting the need to study 5G requirements and issues to evolve current 4G networks to 5G.
This document provides a summary of the development of mobile networks from 0G to 5G. It discusses the key technologies, standards, deployments and applications of each generation including:
- 0G to 2G networks used analog signals while 2.5G introduced digital data services. 3G brought higher speeds and the ability to use the internet.
- 4G technologies like LTE and WiMAX provided faster broadband access to the internet. 5G is aiming for speeds over 1Gbps using beam division multiple access.
- Standards bodies like 3GPP, 3GPP2 and IEEE have developed the specifications for each generation as the technology has evolved from circuit switching to all IP packet networks.
-
The document discusses the evolution of wireless communication technologies from 1G to 5G. It provides details on the key features and capabilities of each generation. 1G allowed analog voice calls while 2G brought digital transmission. 2.5G introduced limited data capabilities. 3G enabled faster speeds and packet-switched data. 4G aims to provide broadband services universally. 5G is envisioned to offer virtually unlimited wireless communication with very high speeds and connectivity.
This document provides an overview of 5G technology and its history and evolution from previous generations (0G-4G). It discusses the key differences between 1G to 5G networks and their offered capabilities. 1G allowed analog voice calls, while 2G brought digital cellular networks and basic text/data. 3G enabled broadband connectivity and basic smartphone capabilities. 4G significantly increased speeds for mobile internet. 5G is expected to offer much faster speeds and lower latency to enable new applications like autonomous vehicles, remote surgery, and more. The document also covers 5G network architecture and some of the key concepts and features of 5G networks.
This is the report part 2 of presentation. It talks about the basic functional architecture, 5G architecture, 5G network layers and the hardware & software components of 5G.
Presentations given at the
Workshop 6: European and Taiwanese Cooperation on 5G
Wednesday, 19 June 2019, at EUCNC 2019 in Valencia, Spain.
All presentations atre available.
ZTE Embracing the 5 g future and dramatic opportunitiesMyles Freedman
This document discusses the evolution of mobile telecommunications networks from 2G to 5G and beyond. It outlines how 5G will enable data rates of over 10 Gbps and connect over 1 million devices per square kilometer. The document then summarizes 5G development progress in several African countries. It explores how 5G will impact digital services and discusses key technologies needed for infrastructure evolution like cloudification, mobile edge computing, and network slicing. The document emphasizes that infrastructure and operations must be adapted now to fully realize the opportunities of 5G.
Highlights from LTE Asia 2014 including slides from the IDA (Aileen Chia), SingTel (Yuen Kuan Moon), LG+ (Suntae Kim), Dialogic (Jim Machi) and the Innovation Accelerator pitches: Telestax, Tropo, Jongla
The document discusses considerations for adopting IPv6, including drivers for IPv6 adoption like addressing the shortage of IPv4 addresses, and factors that affect the timing of IPv6 adoption. It summarizes Tata Communication's IPv6 network and services, noting they have been an early IPv6 adopter with over 40 major customers connected via both IPv4 and IPv6.
Take Most Advanced "5G Training" From Tonex TrainingBryan Len
Tonex Training is one of the most popular company in 5G Wireless Training, 5G Technical Fundamentals training platform. Tonex Training offers Most Advanced "5G Training" to improve your 5g technology skills. It's a 3 days training with $2,499.00 price.
5G wireless training (5th generation wireless systems or mobile networks) covers next major period of wireless and mobile telecommunications standards past the current 4G/IMT-Advanced standards. 5G wireless training presents most predominant advances and structures in close future which make 5G innovation.
5G networks are expected to take off extensively after 2020. Check Also our new 3GPP 5G Mobile Broadband Transformation Training Bootcamp, 3GPP 5G Transformation and 5G Wireless Training Crash Course. NEW 2-Day 5G Air Interface Course: 5G New Radio Training (NR), 5G NR.
Course Content:
What is 5G Wireless Communication?
5G Wireless Requirements, Applications, and Services
5G Vision
5G Wireless Use Cases and Applications
Key Capabilities in IMT-2020
Overview of current & Past 5G Wireless Standardization / Projects
5G Technology Enablers
5G Challenges and Requirements
5G Wireless Air Interface
3GPP Evolution to 5G: LTE-Advanced Pro
The 5G Operational Scenarios
3GPP Standardization and Enabling Technologies for 5G
Request more information. Visit Tonex training course link
Take Most Advanced "5G Training" From Tonex Training
https://www.tonex.com/training-courses/5g-wireless-training/
Israel's First Internet of Things ConferenceGeminiVC
Did you know that by 2020 there will be 30 billion connected devices?! Internet of Things (IoT) is a world where 'things', both physical and vitual, are linked, and is set to transform daily life as we know it. This exclusive, invitation-only event brought together global thought leaders and business executives who are passionate about innovation and the advancement of technology.
1. The document discusses the evolution of mobile technologies from 1G to 6G, comparing their key features such as bandwidth, deployment years, and services provided. 2. 6G is proposed to integrate 5G networks with satellite technology to provide global coverage with high-speed internet connectivity up to 11 Gbps for multimedia and weather information services on mobile devices. 3. 6G aims to use nanotechnology and artificial intelligence to connect all network operators to a single core and provide benefits like smart homes and cities, space technology applications, and disaster control.
1. The document discusses the evolution of mobile technologies from 1G to 6G, comparing their key features such as bandwidth, deployment years, and services provided. 2. 6G is proposed to integrate 5G networks with satellite technology to provide global coverage with high-speed internet connectivity up to 11 Gbps for multimedia and weather information services on mobile devices. 3. 6G aims to use nanotechnology and artificial intelligence to connect all network operators to a single core and provide benefits like smart homes and cities, natural disaster control, and space communication.
This document contains a resume for Shashikant Sharma summarizing his work experience and qualifications. He has over 15 years of experience in telecommunications sales, solution architecture, and presales, specializing in NFV, SDN, vEPC, and vIMS solutions. His most recent role was with Ericsson Global India as a Solution Architect focusing on their NFV and cloud solutions.
The document summarizes discussions from a workshop on defining future 5G networks and opportunities for small and medium enterprises (SMEs). Presenters discussed potential 5G technologies like software-defined networking (SDN), network functions virtualization (NFV), and a proposed "Network Operating System". They also explored how SMEs could collaborate with researchers to develop new connected media applications and better utilize 5G networks. Key questions focused on how SMEs, users, and other stakeholders could work together to exploit 5G's potential and what components would need to be opened up, such as hardware and wireless spectrum access, to enable SME-driven 5G innovation.
4G LTE International Conference - Event OverviewGiang Dang
(1) The document outlines details of the First Ever 4G LTE International Conference in Vietnam taking place on March 26, 2015 at the Melia Hotel in Hanoi. (2) The conference will focus on Vietnam's 4G master plan and experiences constructing and managing 4G networks in the Greater Mekong Subregion. (3) Key topics will include optimizing 4G infrastructure, diversifying services on 4G platforms, and developing a homogeneous 4G technology across the subregion.
This document discusses network performance diagnostic tools, specifically the NetTrax 3000 software. It introduces NetTrax 3000, which is an active testing software that measures quality of service (QoS) on broadband and data networks. The objectives of using NetTrax 3000 are to establish benchmark network data, accurately measure QoS metrics, provide irrefutable results using industry standards, and identify network issues. It discusses the applicable QoS standards and outlines the testing requirements, parameters that can be measured like latency, throughput, packet loss and jitter, and how the software works.
5G networks will provide vastly increased capabilities over 4G networks. 5G is expected to deliver peak data rates of up to 10 Gbps, end-to-end latencies of 1 ms or less, connectivity for at least 1 million devices per square kilometer, and network energy efficiency improvements of up to 90%. However, 5G networks are still in development and large-scale commercial deployments are not expected until around 2020. In the meantime, 4G networks are being enhanced through technologies like LTE-Advanced, VoLTE, and WiFi calling to help meet some 5G requirements and enable new applications and use cases.
Global IPv6 Summit Presentation - Global Deployment or Digital DivideAPNIC
This document summarizes IPv6 deployment efforts globally and in specific regions and countries. It discusses the growing need for IPv6 due to the depletion of IPv4 address space. Several case studies are presented on IPv6 deployment by mobile carriers like T-Mobile USA. Taiwan's government efforts to promote IPv6 are also summarized, as well as the work done by TWNIC and APNIC to measure IPv6 readiness and encourage adoption.
Farhan Ghafoor is seeking a challenging position in a prestigious organization where he can contribute his process management and service delivery skills. He has over 6 years of experience managing telecommunications projects in Saudi Arabia. He holds a B.S. in Telecommunication and Networks from COMSATS University of Science and Technology.
IPLOOK Networks provides 3G, 4G, and 5G core network solutions based on NFV technology. They have over 60 employees with more than 80% in R&D and technical support. Their products include EPC, IMS, 3G elements, 5G core, and NB-IoT core. They offer solutions for WISPs, MVNOs, MNOs, vertical networks, and IoT. IPLOOK has deployments in countries around the world and aims to provide customized, high availability networks that lower costs.
This document provides an overview of 4G technology, including its history and evolution from previous generations of wireless networks. 4G aims to provide significantly higher data speeds of up to 100 Mbps for mobile users through technologies like OFDMA and MIMO. It will allow for new multimedia applications in areas like telemedicine and crisis response. However, 4G networks also face challenges in security and implementation costs that need to be addressed for the future of 4G.
Similar to 5G 4G-LTE Workshop Conference 2018 (20)
Content
Brief history about wireless ecosystem.
What is LTE (Long Term Evolution) ?
How is it different from older technologies ?
Network architecture in LTE
Radio Access network (RAN)
Evolved Packet Core (EPC)
Bearers in LTE
Interfaces in LTE
Life Cycle of a UE
LTE RAN overview
Architecture and requirements
Channel bandwidths and operating bands
OFDMA and SC-FDMA
Frequency (LTE-FDD) and time division duplexing (LTE-TDD)
Multiple Antenna techniques in LTE
Channels in LTE and protocol Stack
LTE EPC overview
Architecture
Functions of various elements in EPC
Content
Brief history about wireless ecosystem.
What is LTE (Long Term Evolution) ?
How is it different from older technologies ?
Network architecture in LTE
Radio Access network (RAN)
Evolved Packet Core (EPC)
Bearers in LTE
Interfaces in LTE
Life Cycle of a UE
LTE RAN overview
Architecture and requirements
Channel bandwidths and operating bands
OFDMA and SC-FDMA
Frequency (LTE-FDD) and time division duplexing (LTE-TDD)
Multiple Antenna techniques in LTE
Channels in LTE and protocol Stack
LTE EPC overview
Architecture
Functions of various elements in EPC
5g technology is a unique combination of high speed internet access , low latency , high reliability & seamless coverage which will support no. of vehicles & transport infrastructure. 5G platform will impact many industries like automotive , entertainment, agriculture , manufacturing and IT. As per the research forecast “IOT will account for one quarter of the global 41 million 5G connections in 2024”, out of these ¾ of the devices will be auto industry via embedded vehicle connections.
There are wide range of applications that will benefit from 5G ultra fast networks and real time responsiveness of the network.These properties of 5G technology are very important for many applications of IOT e.g self driven cars , intelligent transportation which demands very low latency .This will be a great boom for interactive mobile gaming which is bandwidth hungry application. 5G technology enables us to control more devices remotely in various applications where real time network performance is critical, like remote control of vehicles. It focuses on worker safety as well as monitoring environment. 5G technology is not focusing on improving speed , but this will prove best in evolution of business etc. IOT in 5G have excelled in connecting number of phones , tablets and other devices, however connecting cars , meters, sensors require more advanced business models.
5g technology is a unique combination of high speed internet access , low latency , high reliability & seamless coverage which will support no. of vehicles & transport infrastructure. 5G platform will impact many industries like automotive , entertainment, agriculture , manufacturing and IT. As per the research forecast “IOT will account for one quarter of the global 41 million 5G connections in 2024”, out of these ¾ of the devices will be auto industry via embedded vehicle connections.
There are wide range of applications that will benefit from 5G ultra fast networks and real time responsiveness of the network.These properties of 5G technology are very important for many applications of IOT e.g self driven cars , intelligent transportation which demands very low latency .This will be a great boom for interactive mobile gaming which is bandwidth hungry application. 5G technology enables us to control more devices remotely in various applications where real time network performance is critical, like remote control of vehicles. It focuses on worker safety as well as monitoring environment. 5G technology is not focusing on improving speed , but this will prove best in evolution of business etc. IOT in 5G have excelled in connecting number of phones , tablets and other devices, however connecting cars , meters, sensors require more advanced business models.
Migration to 5G and Deployment Training and certification by TELCOMA GlobalGaganpreet Singh Walia
5G technology enables enhanced mobile broadband services, which offers higher data rates, lower latency and more capacity. Development of 5G technology is being led by companies such as Huawei, Intel and Qualcomm for modem technology. Lenovo, Nokia, Ericsson, ZTE, Cisco and Samsung is working on infrastructure.
For deployment of 5G, 3GPP is defining new core network as well as new radio access network. New core network of 5G is 5GC and new radio access technology called “5G NR” new radio.5G use cases are already being built around immersive sports viewing and augmented reality applications.
Migration to 5G and Deployment Training and certification by TELCOMA GlobalGaganpreet Singh Walia
5G technology enables enhanced mobile broadband services, which offers higher data rates, lower latency and more capacity. Development of 5G technology is being led by companies such as Huawei, Intel and Qualcomm for modem technology. Lenovo, Nokia, Ericsson, ZTE, Cisco and Samsung is working on infrastructure.
For deployment of 5G, 3GPP is defining new core network as well as new radio access network. New core network of 5G is 5GC and new radio access technology called “5G NR” new radio.5G use cases are already being built around immersive sports viewing and augmented reality applications.
The proposed new network architecture and the emergence of various types of transmission technology will pose new challenges to 5G air interface technology standardization, program design, and simulation.
For physical layer transmission technology, 5G will introduce new waveform & nonorthogonal multiple access at the physical layer to achieve the required traffic latency in the air interface.
To explore spatial freedom & improve the network throughput, 5G will introduce massive MIMO technology. In the simulation evaluation system, massive MIMO & MU-MIMO technology will greatly increase computational interference complexity.
The new channel propagation model will be introduced based on high-frequency band transmission technology, D2D technology & massive MIMO technology.
Need to design scheduling algorithm for heterogeneous computing resources, accurately estimate the consumed time of heterogeneous computing & interface data transmission and meanwhile design the synchronized mechanism for computing tasks to make full use of heterogeneous computing platform.
https://telcomaglobal.com/p/5g-testing-training-certification
Rainfall intensity duration frequency curve statistical analysis and modeling...bijceesjournal
Using data from 41 years in Patna’ India’ the study’s goal is to analyze the trends of how often it rains on a weekly, seasonal, and annual basis (1981−2020). First, utilizing the intensity-duration-frequency (IDF) curve and the relationship by statistically analyzing rainfall’ the historical rainfall data set for Patna’ India’ during a 41 year period (1981−2020), was evaluated for its quality. Changes in the hydrologic cycle as a result of increased greenhouse gas emissions are expected to induce variations in the intensity, length, and frequency of precipitation events. One strategy to lessen vulnerability is to quantify probable changes and adapt to them. Techniques such as log-normal, normal, and Gumbel are used (EV-I). Distributions were created with durations of 1, 2, 3, 6, and 24 h and return times of 2, 5, 10, 25, and 100 years. There were also mathematical correlations discovered between rainfall and recurrence interval.
Findings: Based on findings, the Gumbel approach produced the highest intensity values, whereas the other approaches produced values that were close to each other. The data indicates that 461.9 mm of rain fell during the monsoon season’s 301st week. However, it was found that the 29th week had the greatest average rainfall, 92.6 mm. With 952.6 mm on average, the monsoon season saw the highest rainfall. Calculations revealed that the yearly rainfall averaged 1171.1 mm. Using Weibull’s method, the study was subsequently expanded to examine rainfall distribution at different recurrence intervals of 2, 5, 10, and 25 years. Rainfall and recurrence interval mathematical correlations were also developed. Further regression analysis revealed that short wave irrigation, wind direction, wind speed, pressure, relative humidity, and temperature all had a substantial influence on rainfall.
Originality and value: The results of the rainfall IDF curves can provide useful information to policymakers in making appropriate decisions in managing and minimizing floods in the study area.
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
Null Bangalore | Pentesters Approach to AWS IAMDivyanshu
#Abstract:
- Learn more about the real-world methods for auditing AWS IAM (Identity and Access Management) as a pentester. So let us proceed with a brief discussion of IAM as well as some typical misconfigurations and their potential exploits in order to reinforce the understanding of IAM security best practices.
- Gain actionable insights into AWS IAM policies and roles, using hands on approach.
#Prerequisites:
- Basic understanding of AWS services and architecture
- Familiarity with cloud security concepts
- Experience using the AWS Management Console or AWS CLI.
- For hands on lab create account on [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
# Scenario Covered:
- Basics of IAM in AWS
- Implementing IAM Policies with Least Privilege to Manage S3 Bucket
- Objective: Create an S3 bucket with least privilege IAM policy and validate access.
- Steps:
- Create S3 bucket.
- Attach least privilege policy to IAM user.
- Validate access.
- Exploiting IAM PassRole Misconfiguration
-Allows a user to pass a specific IAM role to an AWS service (ec2), typically used for service access delegation. Then exploit PassRole Misconfiguration granting unauthorized access to sensitive resources.
- Objective: Demonstrate how a PassRole misconfiguration can grant unauthorized access.
- Steps:
- Allow user to pass IAM role to EC2.
- Exploit misconfiguration for unauthorized access.
- Access sensitive resources.
- Exploiting IAM AssumeRole Misconfiguration with Overly Permissive Role
- An overly permissive IAM role configuration can lead to privilege escalation by creating a role with administrative privileges and allow a user to assume this role.
- Objective: Show how overly permissive IAM roles can lead to privilege escalation.
- Steps:
- Create role with administrative privileges.
- Allow user to assume the role.
- Perform administrative actions.
- Differentiation between PassRole vs AssumeRole
Try at [killercoda.com](https://killercoda.com/cloudsecurity-scenario/)
artificial intelligence and data science contents.pptxGauravCar
What is artificial intelligence? Artificial intelligence is the ability of a computer or computer-controlled robot to perform tasks that are commonly associated with the intellectual processes characteristic of humans, such as the ability to reason.
› ...
Artificial intelligence (AI) | Definitio
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
Redefining brain tumor segmentation: a cutting-edge convolutional neural netw...IJECEIAES
Medical image analysis has witnessed significant advancements with deep learning techniques. In the domain of brain tumor segmentation, the ability to
precisely delineate tumor boundaries from magnetic resonance imaging (MRI)
scans holds profound implications for diagnosis. This study presents an ensemble convolutional neural network (CNN) with transfer learning, integrating
the state-of-the-art Deeplabv3+ architecture with the ResNet18 backbone. The
model is rigorously trained and evaluated, exhibiting remarkable performance
metrics, including an impressive global accuracy of 99.286%, a high-class accuracy of 82.191%, a mean intersection over union (IoU) of 79.900%, a weighted
IoU of 98.620%, and a Boundary F1 (BF) score of 83.303%. Notably, a detailed comparative analysis with existing methods showcases the superiority of
our proposed model. These findings underscore the model’s competence in precise brain tumor localization, underscoring its potential to revolutionize medical
image analysis and enhance healthcare outcomes. This research paves the way
for future exploration and optimization of advanced CNN models in medical
imaging, emphasizing addressing false positives and resource efficiency.
An improved modulation technique suitable for a three level flying capacitor ...IJECEIAES
This research paper introduces an innovative modulation technique for controlling a 3-level flying capacitor multilevel inverter (FCMLI), aiming to streamline the modulation process in contrast to conventional methods. The proposed
simplified modulation technique paves the way for more straightforward and
efficient control of multilevel inverters, enabling their widespread adoption and
integration into modern power electronic systems. Through the amalgamation of
sinusoidal pulse width modulation (SPWM) with a high-frequency square wave
pulse, this controlling technique attains energy equilibrium across the coupling
capacitor. The modulation scheme incorporates a simplified switching pattern
and a decreased count of voltage references, thereby simplifying the control
algorithm.
An improved modulation technique suitable for a three level flying capacitor ...
5G 4G-LTE Workshop Conference 2018
1. INTERNATIONAL WORKSHOP ON
5G & 4G LTE
TELCOMA 5G & 4G WORLD 2018
MAY 10-14, 2018 CHANDIGARH, INDIA
www.telcomaglobal.com
TELCOMA
2. TELCOMA 5G & 4G LTE WORKSHOP 2018
TELCOMA has been providing fanatical services to
the Telecom Industry since 2008. More than 2,05,000
people have recommended our Training & Certifica-
tions
Year 2018 marks our 10 years in business and we
have come up with a world class event for Corporates,
Government, Academicians and Students in which our
experts will focus on the current and future genera-
tions of mobile wireless communications i.e 4G LTE &
5G.
Join TELCOMA 5G World 2018 & 4G World 2018 and
you’ll gain access to powerful knowledge which will
mark the beginning of wonderful transition in your
career.
10-14 May 2018 at Chandigarh - The city beautiful
5G WORLD
10-12 May, 2018
4G WORLD
13-14 May, 2018
3. WHAT SETS US APART
With 10 years in Telecom Business, TELCOMA is the leader in Telecom Training and Certifications. We
provide instructor led onsite training and online trainings. We provide 70+ Training & Certifications in Tele-
com and IT. More details can be found at https://telcomaglobal.com/
“Get brand-new telecom skills, switch careers, get salary raise and land promotions. Our profes-
sional trainings on top telecom technologies keeps skills high, costs low and business moving.
Our training paths will help you prepare for industry-recognized certifications.”
Our services include consulting, design, deployment, performance, operations, spectrum and licensing,
virtualization, cloud solutions, IOT and R&D
52
Expecting Participants from
Countries at TELCOMA 5G
WORLD 2018 & 4G WORLD
2018
SOCIAL FOLLOWING
2,00,000+ Likes on Facebook 21,000+ Subscribers on YouTube
94%
Like Rate
4.5/5
185 Reviews
4. 9:30 - 10am
REGISTRATION
10 - 11:30am
5G FOR FUTURE WIRELESS NETWORKS
- 5G roadmap
- Global initiatives
- METIS & 5G-PPP
- 5GPP & NGMN
- 5G design objectives
- ITU-R IMT 2020 vision for 5G
- 5G industry progress
- China : 5G promotion group
- Korea : 5G forum
- Japan : ARIB 2020 & beyond Ad Hoc
11:30 - 11:45am
TEA BREAK
11:45am - 1:30pm
5G STANDARDS AND SPECTRUM
- 3GPP release - 14
- 3GPP release - 15
- 3GPP release - 16
- Spectrum ranges suitable for 5G applications
- Harmonization of 5G spectrum
- 5G spectrum in leading markets
- Sub- 1 GHz, 1- 6 GHz, above 6 GHz
- New frequency ranges for NR
5G DAY 1: THURSDAY, 10 MAY 2018
1:30 - 2:30pm
LUNCH
2:30 - 3pm
NFV & SDN IN 5G NETWORKS
Cloud enabled 5G; SDN & NFV
NFV architecture, SDN overview & SDN controller
Opendaylight controller, Open source & research activities
3 - 4:45pm
NEW TECHNOLOGIES FOR 5G SYSTEMS
- Fog computing
- Mobile Edge computing
- Flexible physical layer design
- Non orthogonal multiple access
- Massive MIMO
- Full duplex communications
- Millimeter wave communications
- M2M communications
- Radio resource management
- Energy harvesting communications
- Visible light communication
- Software defined networking in 5G
- Network functions virtualization in 5G
4:45 - 5pm
TEA BREAK
5- 5:30pm
INTERACTIVE Q&A SESSION
5G WORLD 2018
5. 10 - 11:30am
5G SYSTEM DESIGN
5G E2E system architecture
5G CRAN
5G mobile core & operations
Remote radio head
5G service based architecture
Transport network
Cloud native new Core network
Control plane & user plane separation
Unified database management
Service based architecture for NG core
Small cells & Hetnets in 5G
5G UDNs
11:30 - 11:45am
TEA BREAK
11:45am - 1:30pm
5G AIR INTERFACE
Unified air interface in 5G
5G new Radio
Flexible OFDM
SCMA
Radio access virtualization
Elimination of cell boundaries
Millimeter wave propagation
Distributed massive MIMO principles
5G DAY 2: FRIDAY, 11 MAY 2018
1:30 - 2:30pm
LUNCH
2:30 - 3pm
CELLULAR IOT
5G & IOT
NB-IOT
C-IOT
3 - 4:45pm
5G NETWORK SLICING
Network slicing concept in 5G
Why network slicing ?
Network slicing architecture
5G- Transformer project
NFV & network slicing - business advantage
Network slicing advantages
Network slicing- challenges & opportunities
4:45 - 5pm
TEA BREAK
5- 5:30pm
INTERACTIVE Q&A SESSION
5G WORLD 2018
6. 5G DAY 3: SATURDAY, 12 MAY 2018
10 - 11:30am
5G NETWORK SECURITY
5G security goals
5G new trust model
Diversified identity management
User privacy protection management
5G radio network security
5G core network security
5G hetnets security
mmWave security issues
SON security
11:30 - 11:45am
TEA BREAK
11:45am - 1:30pm
NEXT GENERATIONS CORE NETWORK
Cloud native 5G core networks
Need of new core
Need for new core network in 5G
Virtualized V/s cloud native
NG core architecture
NG core capabilities
Service based architecture
Common 4G/5G core based on NGC
1:30 - 2:30pm
LUNCH
2:30 - 3pm
5G NR UNIFIED AIR INTERFACE
5G NR standards
NR objective
NR general aspects & principles
Grant free transmissions
3 - 4:45pm
5G APPLICATIONS AND USE CASES
5G- anything as a service
Enhanced mobile broadband
Ultra reliable communications
Massive machine type communications
Critical communications & V2V communications
Telemedicine
3D/virtual reality & Augmented reality
Gaming
Smart buildings & smart cities
Smart grid
Internet of things
4:45 - 5pm
TEA BREAK
5- 5:30pm
INTERACTIVE Q&A SESSION
5G WORLD 2018
7. 10 - 11:30am
ERA OF 4G TECHNOLOGY
LTE introduction
LTE releases
LTE goals
LTE frequency bands
Frequency bands attributes
LTE bands allocation
Flexible bandwidth
Duplex modes
11:30 - 11:45am
TEA BREAK
11:45am - 1:30pm
NEXT GENERATIONS CORE NETWORK
Cloud native 5G core networks
Need of new core
Need for new core network in 5G
Virtualized V/s cloud native
NG core architecture
NG core capabilities
Service based architecture
Common 4G/5G core based on NGC
4G DAY 4: SUNDAY, 13 MAY 2018
1:30 - 2:30pm
LUNCH
2:30 - 4pm
LTE AIR INTERFACE
LTE air interface design
LTE frame structure
LTE resource block
LTE scheduling block
LTE resource block architecture
Cyclic prefix
LTE channels & LTE channel mapping
OFDMA
MIMO technology
SCFDMA
4 - 4:45pm
5G APPLICATIONS AND USE CASES
VoLTE & ViLTE
Carrier aggregation, Relay nodes
CoMP
4:45 - 5pm
TEA BREAK
5- 5:30pm
INTERACTIVE Q&A SESSION
4G WORLD
8. 10 - 11:30am
LTE NETWORK PLANNING
Network planning
Frequency planning
TDD planning
CP planning
Coverage planning
LTE link budget
LTE propagation models
LTE propagation parameters
LTE capacity planning
TA planning, PCI planning
PRACH planning
11:30 - 11:45am
TEA BREAK
11:45am - 1:30pm
LTE NETWORK OPTIMIZATION
LTE optimization process
LTE coverage improvement strategies
LTE interference control
ICIC technique & HO optimization
LTE active mode handovers
LTE idle mode handovers
LTE RAN parameters optimization
LTE key performance indicators
Radio analysis
Call drop analysis
4G DAY 5: MONDAY, 14 MAY 2018
1:30 - 2:30pm
LUNCH
2:30 - 4pm
LTE DRIVE TEST
Drive test process
DT process
DT parameters
TEMS investigation 17
TEMS tool description
TEMS parameters
LTE cell search parameters
LTE neighbor parameters
LTE ANR parameters
LTE RLC parameters
Log files recordings & analysis
4 - 4:45pm
SELF ORGANIZING NETWORKS
Distributed SON
Centralized SON, Hybrid SON
Self optimization functions
Self healing functions
4:45 - 5pm
TEA BREAK
5- 5:30pm
INTERACTIVE Q&A SESSION
4G WORLD
9. CERTIFICATION
5G AND 4G-LTE CERTIFICATION
For 5G and 4G LTE workshop seperate certificates will be issued by
TELCOMA upon completion. The format will be both hard copy and soft
GLOBALLY RECOGNISED CERTIFICATIONS
Earning your TELCOMA Certification gives you a well-respected Telecom
Expert credential that validates your expertise and enhances your pro-
fessional credibility.
TELCOMA offers industry-leading Training and Certifications that are
globally recognized. With TELCOMA certification, you hold the power
to move ahead in your career, increase your earning potential and add
value to any organization
ADDITIONALLY YOU WILL GET
Knowledge-sharing and benchmarking with peers and industry experts
Insight and understanding of key industry trends and developments which will influence the future of wireless telecom industry
Investment and partnership leads through networking
Opportunity to influence decisions, share your message, shape policy & strategy for your company
10. e-VISA INFORMATION
Getting Indian VISA is a very easy process. Nationals of 150 countries are eligible for e-VISA where they need to apply online with mini-
mum documentation like passport and photograph and they get e-VISA without any hassles.
Check all the details i.e instructions and documents required here https://indianvisaonline.gov.in/evisa/tvoa.html
Apply for Business e-VISA here https://indianvisaonline.gov.in/evisa/Registration
Instructions and Documents
1. Applicants of the eligible countries/territories may apply online minimum 4 days in advance of the date of arrival with a window of 120
days. Example: If you are applying on 1st Sept then applicant can select arrival date from 5th Sept to 2nd Jan
2. Recent front facing photograph with white background and photo page of Passport containing personal details like name, date of birth,
nationality, expiry date etc are to be uploaded mandatorily by the applicant.
3. For e-Business Visa you require a Business / Visting card
4. e-Visa is valid for entry through 25 designated Airports (i.e. Ahmedabad, Amritsar, Bagdogra, Bengaluru, Calicut, Chennai, Chandigarh,
Cochin, Coimbatore, Delhi, Gaya, Goa, Guwahati, Hyderabad, Jaipur, Kolkata, Lucknow, Mangalore, Mumbai, Nagpur, Pune, Tiruchirapalli,
Trivandrum, Varanasi & Vishakhapatnam). Delhi is the nearest airport to Chandigarh i.e our location.
5. Persons from some African and South American countries are required to carry yellow fever vacination certificate during their travel to
India. Check the details here https://boi.gov.in/content/health-regulation
APPLY ONLINE > PAY VISA FEES ONLINE > RECIEVE E-VISA VIA EMAIL > PRINT & FLY TO INDIA
e-VISA PROCESS
11. A
Albania
Andorra
Anguilla
Antigua & Barbuda
Argentina
Aruba
Australia
Austria
B
Bahamas
Barbados
Belgium
Belize
Bolivia
Bosnia & Herzegovina
Botswana
Brazil
Brunei
Bulgaria
C
Cambodia
Canada
Cape Verde
Cayman Island
Chile
China
China- SAR Hongkong
China- SAR Macau
Colombia
Comoros
Cook Islands
Costa Rica
Cote d’lvoire
Croatia
Cuba
Czech Republic
D
Denmark
Djibouti
Dominica
Dominican Republic
E
East Timor
Ecuador
El Salvador
Eritrea
Estonia
F
Fiji
Finland
France
G
Gabon
Gambia
Georgia
Germany
Ghana
Greece
Grenada
Guatemala
Guinea
Guyana
H
Haiti
Honduras
Hungary
I
Iceland
Indonesia
Ireland
Israel
J
Jamaica
Japan
Jordan
K
Kenya
Kiribati
L
Laos
Latvia
Lesotho
Liberia
Liechtenstein
Lithuania
Luxembourg
M
Madagascar
Malawi
Malaysia
Malta
Marshall Islands
Mauritius
Mexico
Micronesia
Moldova
Monaco
Mongolia
Montenegro
Montserrat
Mozambique
Myanmar
N
Namibia
Nauru
Netherlands
New Zealand
Nicaragua
Niue Island
Norway
O
Oman
P
Palau
Palestine
Panama
Papua New Guinea
Paraguay
Peru
Philippines
Poland
Portugal
R
Republic of Korea
Republic of Macedonia
Romania
Russia
S
Saint Christopher
Nevis
Saint Lucia
Saint Vincent Samoa
San Marino
Senegal
Serbia
Seychelles
Singapore
Slovakia Slovenia
South Africa
Spain
Sri Lanka
Suriname
Swaziland
Sweden
Switzerland
T
Taiwan
Tajikistan
Tanzania
Thailand
Trinidad & Tobago
U
UAE
Ukraine
United Kingdom
Uruguay
USA
V
Vanuatu
Vatican City-Holy See
Venezuela
Vietnam
Z
Zambia
Zimbabwe
150 COUNTRIES WITH E-VISA (VISA ON ARRIVAL)
12. VENUE: HOTEL KLG STARLITE, CHANDIGARH
Venue
TELCOMA 5G World 2018 & 4G World 2018 will take place from
10th to 14th May at the Hotel KLG Starlite, a 4 star hotel, con-
veniently located near Chandigarh International airport, Railway
station and Bus stand.
The Hotel KLG Starlite is the ultimate Chandigarh’s luxury lifestyle
destination – an iconic luxury business hotel for corporate party to
a traveler’s stay
Check the KLG Starlite website http://www.klgstarlite.com/
Accomodation
We will help you to find a suitable place for your stay according to
your needs. We have tied up with KLG Starlite to book rooms at
discounted pricing. The cost would be around USD 40 / INR 2500
Else we can help you to budget or luxury hotels nearby within the
range of $20 - $200
Travel
Cabs are easily available for transfer at very nominal pricing, the
most popular are OLA and Uber.
13. REGISTRATION
Important Dates and Payment Information
Registration starts on 28th March 2018 and will be done on first come first served basis
All the payments will be made through our website TELCOMA GLOBAL. As the seats are limited we strongly recommend you to register
as soon as possible to confirm your slot. Please register at our website https://telcomaglobal.com/p/5g-4g-workshop
Workshop Regular Price
Early bird Price (20% Off)
(Payment done before 3rd April 2018)
5G & 4G World Workshop:
10-14 May, 2018
USD 430
INR 23,000
USD 350
INR 18,400
Only 5G World Workshop:
10-12 May, 2018
USD 350
INR 18,000
USD 280
INR 14,400
Only 4G World Workshop:
13-14 May, 2018
USD 230
INR 10,000
USD 184
INR 8000
Registration fee is to be submitted only through our website https://telcomaglobal.com/p/5g-4g-workshop
14. CHANDIGARH, INDIA
Chandigarh, India’s first and best planned city, is a rich, prosperous, spic and span, green city rightly called “ THE CITY BEAUTIFUL ”.
Chandigarh is a rare epitome of modernization co-existing with nature’s preservation.
The most striking thing about the city is the expanse of resplendent blue sky with the mountains in the backdrop. Chandigarh is a good
place to visit if you need a break from the constant flow of which is often said to assault the senses, and can be overwhelming to foreign
travelers.
Chandigarh is also a very secure city. With the lowest crime rates in the country, you can feel safe at any hour.
Build on the foot of the Shivalik hills by Swiss born, French architect Edouard ‘Le Corbusier’ and he created Chandigarh as a city of “Sun,
Space and Verdure” to fulfill basic functions of working, living, and care of body and spirit. Today, the city is home to more than 900 000
people living in harmonious conditions that are considered to be the best in the country.
15. Contact us directly to find out more
+919814145471, +918146013147
support@telcomaglobal.com
Address: MOHALI TOWER, F-539
Industrial Area Phase 8B, Mohali