Introduction to 5G Technology with all requirements.pptx
SatyaMadhavBVS
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Jul 02, 2024
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About This Presentation
5g Technology slides
Slide Content
Introduction to 5G Technology
Contents Evolution of Cellular Networks: 1G to 5G Key Features and Objectives of 5G 5G Use Cases and Applications Challenges and Opportunities in 5G deployment
Evolution of Cellular Networks: 1G to 5G
Evolution of Cellular Networks f rom1G to 5G 1G 2G 3G 4G 5G
‘0’G Technology
1G Technology 1G refers to the first generation of wireless telephone technology, mobile telecommunications which was first introduced in 1980s and completed in early 1990s. It's Speed was upto 2.4 kbps . It allows the voice calls in 1 country . 1G network use Analog Signal . AMPS(Advance mobile phone system) was first launched in USA in 1G mobile systems.
1G Technology
Drawback of 1G Technology Poor Voice Quality Poor Battery Life Large Phone Size No Security Limited Capacity Poor Handoff Reliability 1G Wireless System
2G Technology 2G technology refers to the 2nd generation which is based on GSM . GSM technology help to establish international roaming It was launched in Finland in the year 1991 . 2G network use digital signals . It’s data speed was upto 64kbps . Uses mainly 900MHz or 1800MHz Data was supported using High-Speed, Circuit Switched Data (HSCSD) giving max data rates of 57.6Kbps SMS was commercially launched in 1995. It enables services such as text messages, picture messages and MMS (multi media message). It provides better quality and capacity . 2G uses either time division multiple access ( TDMA ) or code division multiple access ( CDMA ).
Drawback of 2G 2G requires strong digital signals to help mobile phones work. If there is no network Coverage in any specific area , digital signals would weak . These systems are unable to handle complex data such as Videos . 2G Wireless System
WIRELESS MODELS OF 1G & 2G WIRELESS MODELS OF 1G & 2G
2.5G TECHNOLOGY 2.5G is a technology between the second (2G) and third (3G) generation of mobile telephony. 2.5G is sometimes described as 2G Cellular Technology combined with GPRS . Features Includes : Phone Calls Send/Receive E-mail Messages Web Browsing Speed : 64-144 kbps Camera Phones Take a time of 6-9 mins. to download a 3 mins. Mp3 song
3G TECHNOLOGY 3G technology was introduced in the year 2000s. Make use of TDMA and CDMA The spectral efficiency of 3G technology is bette r than 2G technologies Transmission speeds from 125kbps to 2Mbps . Data are sent through technology called packet switching . High clarity in Voice calls . Typically called Smart Phones and features increased its bandwidth and data transfer rates to accommodate web-based applications and audio and video files.
FEATURES OF 3G TECHNOLOGY Providing Faster Communication Send/Receive Large Email Messages High Speed Web / More Security Video Conferencing / 3D Gaming TV Streaming/ Mobile TV/ Phone Calls Large Capacities and Broadband Capabilities 11 sec – 1.5 min. time to download a 3 min Mp3 song.
DRAWBACS OF 3G TECHNOLOGY Expensive fees for 3G Licenses Services It was challenge to build the infrastructure for 3G High Bandwidth Requirement Expensive 3G Phones Large Cell Phones
4G TECHNOLOGY 4G technology was started from late 2000s. Capable of providing 100Mbps – 1Gbps speed. One of the basic term used to describe 4G is MAGIC. Features : Mobile Multimedia Anytime Anywhere Global Mobility Support Integrated Wireless Solution Customized Personal Services Also known as Mobile Broadband Everywhere.
4G TECHNOLOGY The next generations of wireless technology that promises higher data rates and expanded multimedia services. Capable to provide speed 100Mbps-1Gbps. High QOS and High Security Provide any kind of service at any time as per user requirements, anywhere. Features Include: More Security High Speed High Capacity Low Cost Per-bit etc.
DRAWBACK OF 4G Battery uses is more Hard to implement Need complicated hardware Expensive equipment required to implement next generation network .
COMPARISON BETWEEN 3G Vs 4G The basic difference between 3G and 4G is in data transfer and signal quality.
WIRELESS MODELS OF 3G & 4G
5G TECHNOLOGY 5G technology was started from late 2010s. Complete wireless communication with almost no limitations . It is highly supportable to WWWW ( Wireless World Wide Web ).
BENEFITS OF 5G TECHNOLOGY High Speed, High Capacity 5G technology providing large broadcasting of data in Gbps . Multi - Media Newspapers, watch T.V programs with the clarity as to that of an HD Quality. Faster data transmission that of the previous generations. Large Phone Memory , Dialing Speed , clarity in Audio/Video. Support interactive multimedia , voice, streaming video, Internet. 5G is More Effective and More Attractive .
COMPARISON BETWEEN 4G Vs 5G The following basic difference between 4G and 5G are
5G and Health Risks 5G also uses electromagnetic waves for transmission of data. It uses higher frequency waves in the millimeter wave range than those used by most widespread applications, such as citizen band (CB) radio, FM radio, on-air UHF and VHF television, microwave ovens, 4G mobile networks and Wi-Fi. Because of shorter signal 5G antennas are also positioned at a shorter height from ground levels and much closer to people .
5G and Health Risks Does 5G cause cancer? In a word, NO -- 5G does not cause cancer nor does it lead to brain tumors . 5G operating at a higher frequency, fits into the non-ionizing radiation zone , unlike ultraviolet rays, x-rays and gamma rays, which fall in the ionizing radiation zone . 5G mobile network technology is transmitted over non-ionizing radio waves.
5G and Health Risks Will 5G towers kill birds? No, the 5G mobile cellular network does not kill birds. Radio wave emissions from radio transmission antennas -- including cell telephone towers -- above 10 megahertz are not known to harm birds.
5G and Health Risks The International Commission on Non-Ionizing Radiation Protection has issued guidelines for devices operating in non-ionizing zones, including the Radiofrequency Electromagnetic Fields (“RF EMF”) 32 of 100kHz to 300 GHz. In India, the Telecom Regulatory Authority of India (“TRAI”) released a paper on electromagnetic radiation from mobile towers reviewing various studies on its effect on human health and concluded that there seems to be no causality between electromagnetic radiation due to mobile phone towers and disease in human beings. The Department of Telecommunications (“DoT”) also requires Telecom Service Providers (“TSPs”) to conduct a periodic audit as per procedure established by the Telecommunication Engineering Centre to ensure that emissions from mobile phone base stations for general public exposure conform to the set standards
Key Features and Objectives of 5G
Key Features of 5G
Key features of 5G Point-1 The most-discussed 5G feature is increased speed and bandwidth . With a data rate of up to 10 Gbps , 5G will bring a 10 times to 100 times improvement over the existing 4G LTE technology. Cellular is now a potential technology for branch office automation because WAN connections finally have enough bandwidth. For businesses, the real benefit of 5G might not be the actual bandwidth, but the pressure that 5G exerts on market prices of incumbent WAN connectivity.
Key features of 5G Point-1 (Additional information) Reliance Jio has acquired spectrum in the 700MHz, 800MHz, 1800MHz, 3300MHz and 26GHz. Spectrum for a period of 20 years is Rs 88,078 crore. Footprint has increased to 26,772 MHz (uplink + downlink) Read more at: http:// timesofindia.indiatimes.com/articleshow/93287960.cms?utm_source=contentofinterest&utm_medium=text&utm_campaign=cppst
Key features of 5G Point-2 5G's low latency , under 5 milliseconds , is the other key benefit for WAN usage. Customers are using MPLS(Multiprotocol Label Switching) or dedicated lines today primarily for low latency in line-of-business applications. 5G's low latency may bring additional flexibility that lets businesses jettison some of their branch office MPLS infrastructure in favor of the less expensive and more flexible 5G connections to branches.
Key features of 5G Point-3 5G density enables up to 100 times more connected devices in the same physical area that 4G LTE operates today, while maintaining 99.999% availability. While this density may bring business advantages for mobile workforces, the real benefit is increasing the size of the mobile customer market. Mobile e-commerce is growing faster than retail and traditional computer-based e-commerce. More customers than ever use mobile technologies to shop online, so greater density increases the overall addressable market...
Key features of 5G Point-4 An estimated 90% reduction in power consumption for devices means minor power savings at the smartphone level. But, from an infrastructure perspective, especially for IoT devices, the power savings could be significant. Combining IoT devices with a cellular 5G communication means lower power overhead in design and actual consumption . Remote devices can be expected to last significantly longer when running on battery alone. Some estimates even show that a 10-year remote battery life may be achievable for IoT -based sensor devices deployed in remote locations....
Key features of 5G Point-5 Security is always a concern for mobile devices and IoT devices. With 5G, stronger security than 4G LTE is available for designers, including hardware security modules, key management services, over the air, secure element and others. This will help ensure that the data transmitted over the 5G network is secure while also hardening network endpoints.....
Key features of 5G Higher capacity Larger volumes of data per user, large number of /devices. Multi –Gbps mobile access >10 Gbps More spectrum , dense access points distribution(small cells). Higher flexibility Easy deployment of capacity where/ when it is needed. Wireless backhaul, self-organizing network. Green radios Low power consumption per bit transmitted mmW radios, directive antennas , short distance links Low EM exposure Lower EM field density( lower Tx power), focused radiation
Key objectives of 5G Objective 1: Innovation with vertical industry expert users: To develop realistic, advanced and business relevant innovative use case scenarios in five key vertical industries. Objective 2: Technology development and readiness: To interface with key ICT-17 facilities and develop the technological enablers for the validation of the use cases. Objective 3: Technological validation: To demonstrate the potential and the user value of advanced 5G solutions through extensive technological validation in field trials directly involving end-users in Living Labs (LLs). https://5growth.eu/wp-content/uploads/2019/10/D3.1-ICT-17_Facilities_Gap_Analysis.pdf
Key objectives of 5G Objective 4: Business validation and innovation: To develop and validate the business models of the use cases in 5G-SOLUTIONS LLs, whilst ensuring long-term social acceptance and economic sustainability, extending beyond the lifespan of the project through a joint commercialization plan.. Objective 5: Contribution to standardization, open source and communities: To provide significant contribution to relevant 5G standardization bodies, to relevant open source communities, to relevant industry standardization and user/technology communities. Objective 6: Dissemination and outreach: To disseminate and exploit the project’s results, to maximize the project's visibility and facilitate dissemination and communication activities, and to contribute to the objectives of the European 5G-PPP Programme.
5G Use Cases and Applications
The three major use cases of 5G are: 1.Enhanced Mobile Broadband 2.Massive Machine Type Communication 3.Ultra-Reliable Low Latency Communication
The three major use cases of 5G are: What is the role of eMBB, mMTC and uRLLC in 5G networks? eMBB, mMTC and uRLLC establish the building blocks for 5G networks to help define requirements for 5G to deliver high-speed mobile broadband (over 10 Gbps ), mass deployment of low-powered IoT devices (1 million devices per km 2 ) and extremely reliable low-latency communication (99.99% reliable).
Enhanced Mobile Broadband ( eMBB ) eMBB extends the current 4G LTE mobile broadband services to the next level of higher bandwidth capacity. It also enhances connectivity and provides higher user mobility . The data rate supported for downlink is up to 20 Gbps and uplink is up to 10 Gbps and latency is 4 ms .
Enhanced Mobile Broadband ( eMBB ) The growth of eMBB mirrors that of contemporary mobile broadband, allowing for bigger data quantities and a better user experience. A prime example is the support of higher end-user data rates. Typical eMBB applications UHD video (4K, 8K) 3D video Tactile Internet, Cloud gaming, and Broadband kiosks Remote classroom, Hologram Virtual Reality (VR) and Augmented Reality (AR) Real-time simulation and training
Massive Machine Type Communication ( mMTC ) mMTC supports a very large number of different types of devices , such as IoT devices and sensors , in a small area. The connection density can be 10 million devices per square kilometer.
5G use cases: A self-driving car , for example, could require a network slice that offers extremely fast, low-latency connections so a vehicle could navigate in real time. A home appliance, however, could be connected via a lower-power, slower connection because high performance is not crucial. IoT could use secure, data-only connections.
Massive Machine Type Communication ( mMTC ) mMTC refers to services with a large device population, such as remote sensors, equipment monitoring devices, and actuators. Low device cost and efficient device energy usage are two requirements for such services. This allows for a longer battery life on the devices, which can last for several years. Each device merely receives and generates a limited amount of data. As a result, support for high data rates. Typical mMTC applications Smart Home Smart City
Massive Machine Type Communication ( mMTC ) mMTC stands for Massive Machine Type Communication, which in 5G networks is a use case class that defines the minimum requirement for 5G to support 1 million low-powered, low-cost , low-complexity devices per square kilometre battery life of up to ten years.
uRLLC – Ultra-Reliable Low Latency Communication What is uRLLC – Ultra-Reliable Low Latency Communication? uRLLC stands for Ultra-Reliable Low Latency Communication and is a use case class that defines the minimum requirement for 5G networks to offer communication with high reliability (99.99%), extremely low latencies (below one millisecond) and support for low data rates (bps or kbps).
Ultra-Reliable Low Latency Communication (URLLC) URLLC services need extremely low latency and tremendous high reliability. Examples include traffic safety, factory automation, and automatic control. Typical URLLC applications Industrial Automation Self-driving vehicles E-health, hazardous environments, rescue missions Vehicular communication Drones
5G Applications 1.High speed mobile network 2.Entertainment and multimedia 3. Satellite Internet 4.IOT- Connecting everything 4.1 Smart home 4.2 Logistics and shipping Efficient use of RFID tags Accelerated packing and labeling Use of smart tracking devices for accurate monitoring of temperature, shock, light exposure, humidity, etc … Realtime GPS location tracking and reporting Efficient monitoring minimizes theft risk and misplacing of items Realtime delivery tracking and reporting Self-driving cars and drones for future goods delivery 4.3 Smart cities 4.4 Industrial IOT
5G Applications 4.5 Smart farming 4.6 Fleet management 4.7 Artificial Intelligence (“AI ”), Healthcare and mission –critical applications 4.8 Autonomous driving 4.9 Drone operation 4.10 Security and surveillance 4.11 Artificial Intelligence (“AI”)
5G use cases THIS TOPIC WE WILL LEARN BY DOING GROUP ACTIVITY Divide the Class into (No. of students / 5) Groups Assign 1 Topic of Case study to each group (From the Following) Group has to prepare the topic in 20min for 5min presentation with chalk-board Sr. No. Case Study Topic 1 Smart cities 2 Autonomous vehicles 3 Improved viewing experience at sporting events 4 5G drones 5 Immersive entertainment 5G use cases: 31 examples that showcase what 5G is capable of | 5Gradar
Who is working on 5G? Many of the big carriers are working on building up their 5G networks now. This includes Verizon, AT&T and Sprint . Verizon is working on implementing mmWave , and T-Mobile is working on low- and midband 5G first. Verizon Ventures aims to invest in areas that would benefit from 5G, such as augmented reality, IoT and artificial intelligence. Additional information
What 5G phones are available? A phone or another piece of hardware can't just get a software update on a 4G phone to enable 5G. 5G requires specific hardware. To be able to utilize 5G, a user must have a device that supports 5G, a carrier that supports 5G and be within an area that has a 5G node within range. Additional information
Challenges and opportunities in 5G deployment Increasing volume of traffic and devices Extreme and diverse performance requirements Extreme backhaul requirements User mobility management Massive increase in cell sites Spectrum harmonization & availability Low energy consumptions Automation requirements Availability of devices Security
Challenges in 5G deployment 1. Infrastructure and Cost : Deploying 5G networks requires significant investments in infrastructure, including new base stations, small cells, and fiber-optic networks . The cost of deploying and upgrading existing infrastructure to support 5G can be a substantial challenge for network operators and service providers. 2. Spectrum Availability : Acquiring the necessary radio spectrum for 5G deployment is crucial. However, there is limited availability of suitable spectrum bands, and obtaining the required spectrum licenses can be challenging . The allocation and management of spectrum resources across multiple stakeholders and regulatory bodies also pose challenges.
Challenges in 5G deployment 3. Network Coverage and Capacity : Achieving widespread network coverage and ensuring sufficient capacity to handle the increasing demand for data is a challenge in 5G deployment. The use of higher-frequency bands in 5G, such as millimeter waves, requires denser network infrastructure due to their shorter range , making network planning and deployment more complex. 4. Interference and Signal Propagation : The higher-frequency bands used in 5G have different propagation characteristics compared to lower-frequency bands. They are more susceptible to blockage and are affected by obstacles like buildings and foliage . Overcoming interference and optimizing signal propagation to ensure reliable connectivity in various environments is a challenge.
Challenges in 5G deployment 5. Standards and Interoperability : Developing and implementing global standards for 5G is a complex task. Ensuring interoperability between different network equipment vendors, devices, and service providers is crucial for seamless operation and widespread adoption of 5G technology.
Opportunities in 5G deployment 1. Enhanced Connectivity and User Experience : 5G promises significantly faster data rates, lower latency, and improved network reliability, offering users an enhanced connectivity experience. This opens up opportunities for innovative applications, such as high-quality video streaming, virtual and augmented reality, and immersive media experiences . 2. Internet of Things ( IoT ) Expansion : 5G provides the infrastructure to support the massive scale of IoT devices and applications . It enables seamless connectivity, low-power operation, and high device density, unlocking opportunities for smart cities, industrial automation, healthcare monitoring, and various IoT use cases.
Opportunities in 5G deployment 3. Industry Transformation : 5G deployment presents opportunities for industries to leverage advanced technologies like edge computing, artificial intelligence (AI), and machine learning . It enables digital transformation in sectors such as manufacturing, transportation, energy, and agriculture, leading to increased efficiency, productivity, and innovation. 4. Mission-Critical Applications : The ultra-reliable and low-latency communication capabilities of 5G create opportunities for mission-critical applications. This includes remote surgery, autonomous vehicles, public safety systems, and industrial automation , where reliable and real-time communication is essential.
Opportunities in 5G deployment 5. Economic Growth and Job Creation : The deployment of 5G networks and the development of new applications and services can drive economic growth and job creation. It spurs innovation, attracts investments, and fosters the growth of the digital economy
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