Mobile broadband growth has led to increased traffic, subscriptions, and revenue for many mobile operators globally. This growth is challenging existing mobile networks and driving operators to evolve their networks to LTE, which can provide significantly higher capacity to support ongoing growth in demand. The mobile industry is largely converging on LTE as the next generation mobile standard, with over 100 operators committed or exploring deployment. LTE promises benefits like lower costs per bit and higher speeds to better meet consumer and business needs in a mobile world.
Overview slide deck on LTE FDD and TDD, including the drivers, benefits, business opportunities, standardization, spectrum, network commitments, trials, planned launches, eco-system/devices, LTE-Advanced
This presentation draws upon the Evolution to LTE Information Paper published by GSA on August 26, 2010 (available at www.gsacom.com)
Mobile networks are now dominated by data. If we rewind back to a decade ago, smartphones and application stores were unheard of. Twitter and Facebook were not in existence and YouTube wasn’t as popular. Culturally, consumers are valuing the need to be socially connected in the present day Internet.
The traditional cellular network cannot cope with the increase in data and signaling traffic that is generated and thus is driving carriers in the direction of offload. The Phase 1 approach was centered on immediately relieving congestion on the network by encouraging offload to any available Wi-Fi hotspot. In this second part of the five part offload series, we draw attention to Direct Internet Offload. The concept of Direct Internet Offload is nothing new, but has taken a slight shift considering Wi-Fi’s popularity. And the flexibility to integrate them into mainstream network design offers transformative opportunities for carriers without losing sight of the commitment to make the user experience secure and controlled.
This presentation summarizes the many technology ideas and business models to achieve Ultra-efficient network operation while safeguarding customer quality and expectations. This work was presented at Informa's Broadband MEA conference in Dubai, 26th of Match 2012.
Digital Dividend refers to the UHF spectrum that becomes freed up as a result of the switchover from analog to digital terrestrial TV
Digital Dividend offers an unprecedented amount of spectrum which can be utilized for extending mobile broadband services to all, including to the most rural areas, and to speed up rollout. By applying the Digital Dividend for mobile broadband services, enormous benefits will ensue around the world in terms of social impact and increased productivity
This report provides an update of the present situation around the world regarding the Digital Dividend opportunity
Overview slide deck on LTE FDD and TDD, including the drivers, benefits, business opportunities, standardization, spectrum, network commitments, trials, planned launches, eco-system/devices, LTE-Advanced
This presentation draws upon the Evolution to LTE Information Paper published by GSA on August 26, 2010 (available at www.gsacom.com)
Mobile networks are now dominated by data. If we rewind back to a decade ago, smartphones and application stores were unheard of. Twitter and Facebook were not in existence and YouTube wasn’t as popular. Culturally, consumers are valuing the need to be socially connected in the present day Internet.
The traditional cellular network cannot cope with the increase in data and signaling traffic that is generated and thus is driving carriers in the direction of offload. The Phase 1 approach was centered on immediately relieving congestion on the network by encouraging offload to any available Wi-Fi hotspot. In this second part of the five part offload series, we draw attention to Direct Internet Offload. The concept of Direct Internet Offload is nothing new, but has taken a slight shift considering Wi-Fi’s popularity. And the flexibility to integrate them into mainstream network design offers transformative opportunities for carriers without losing sight of the commitment to make the user experience secure and controlled.
This presentation summarizes the many technology ideas and business models to achieve Ultra-efficient network operation while safeguarding customer quality and expectations. This work was presented at Informa's Broadband MEA conference in Dubai, 26th of Match 2012.
Digital Dividend refers to the UHF spectrum that becomes freed up as a result of the switchover from analog to digital terrestrial TV
Digital Dividend offers an unprecedented amount of spectrum which can be utilized for extending mobile broadband services to all, including to the most rural areas, and to speed up rollout. By applying the Digital Dividend for mobile broadband services, enormous benefits will ensue around the world in terms of social impact and increased productivity
This report provides an update of the present situation around the world regarding the Digital Dividend opportunity
Mobile data traffic is growing year to year. Mobile operators are facing a different situation from voice legacy business. The growth of data traffic is not as high as one of revenue. They need to lower cost of Mbps to survive otherwise they will collapse.
The ability to use voice, mobile apps, SMS, email, websites, chat, video, and social media through a single device is forcing operators to rethink their mobile strategies in the form of offload. With the increased data usage, operator networks become increasingly congested. As such, a smart and dynamic connected interaction is necessary to allow better traffic management with particular capabilities of the device with which it is characterized.
In this paper, we will examine how dynamic data offloading with 3GPP based Access Network Discovery Selection Function (ANDSF) plays its role in the implementation of selective offloading. ANDSF as specified in 3GPP standards describes how the inter-system mobility between 3GPP systems and non-3GPP systems (WLAN, WiMAX, CDMA) policies and priorities can control the conditions for which a device connects to which wireless network. As mobility is becoming a mainstream for customer engagement, operators must ensure contextual continuity is preserved through an integrated approach.
Positioning WiMAX As The Personal Broadband TechnologyGreen Packet
More and more users want a broadband connection that is exclusive, follows them around and is available 24/7. Welcome to the concept of personal broadband. To realize this concept the chosen broadband network has to be able to deliver users’ expectations. Meanwhile, appropriate user devices must be employed. This paper presents WiMAX as the best technology to fulfill personal broadband and imparts what users expect from their personal broadband device.
De-risking the broadband business model was presented at Informa's Industry Outlook 2012. The starting point summarizes the challenges the incumbent Telco is facing with the emergence of the smartphone, mobile applications and social media. Then it takes you to the Digital Agenda 2020 for Europe and inspects what needs to happen to make it come through.
In May 2011, Informa conducted a global survey of the community built around the LTE World Series of events. We asked a broad cross-section of more than 500 industry executives from all members of the LTE ecosystem to answer around 20 questions on the current and future status of LTE. This presentation summarises our findings.
Mobile data traffic is growing year to year. Mobile operators are facing a different situation from voice legacy business. The growth of data traffic is not as high as one of revenue. They need to lower cost of Mbps to survive otherwise they will collapse.
The ability to use voice, mobile apps, SMS, email, websites, chat, video, and social media through a single device is forcing operators to rethink their mobile strategies in the form of offload. With the increased data usage, operator networks become increasingly congested. As such, a smart and dynamic connected interaction is necessary to allow better traffic management with particular capabilities of the device with which it is characterized.
In this paper, we will examine how dynamic data offloading with 3GPP based Access Network Discovery Selection Function (ANDSF) plays its role in the implementation of selective offloading. ANDSF as specified in 3GPP standards describes how the inter-system mobility between 3GPP systems and non-3GPP systems (WLAN, WiMAX, CDMA) policies and priorities can control the conditions for which a device connects to which wireless network. As mobility is becoming a mainstream for customer engagement, operators must ensure contextual continuity is preserved through an integrated approach.
Positioning WiMAX As The Personal Broadband TechnologyGreen Packet
More and more users want a broadband connection that is exclusive, follows them around and is available 24/7. Welcome to the concept of personal broadband. To realize this concept the chosen broadband network has to be able to deliver users’ expectations. Meanwhile, appropriate user devices must be employed. This paper presents WiMAX as the best technology to fulfill personal broadband and imparts what users expect from their personal broadband device.
De-risking the broadband business model was presented at Informa's Industry Outlook 2012. The starting point summarizes the challenges the incumbent Telco is facing with the emergence of the smartphone, mobile applications and social media. Then it takes you to the Digital Agenda 2020 for Europe and inspects what needs to happen to make it come through.
In May 2011, Informa conducted a global survey of the community built around the LTE World Series of events. We asked a broad cross-section of more than 500 industry executives from all members of the LTE ecosystem to answer around 20 questions on the current and future status of LTE. This presentation summarises our findings.
Recent announcements including reports from leading mobile network operators confirming mobile broadband traffic and revenue growth enabled by WCDMA-HSPA
The Global mobile Suppliers Association (GSA) has published its latest GSM/3G Market Update. The world’s first LTE networks are launched in Sweden and Norway, the number of operators committed to LTE deployments has grown to 64 in 31 countries, 103 operators have committed to HSPA+ deployments with 52 networks now launched, and over 98% of WCDMA operators have launched HSPA. HSUPA is now commercially launched in 53 countries by 100 operators. The number of HSPA user devices is rapidly growing, reaching 2,349 from more than 230 suppliers
Universal Access to Broadband Using the Mainstream Mobile Technologies.pdfDanielBjarhov
Affordable Affordable
Universal Access Universal Access
to Broadband to Broadband
using the mainstream using the mainstream
Mobile Technologies Mobile Technologies
Michael Bjarhov
Head of Government & Industry Relations, Asia Pacific
To build an economy that can lead
this future, we will begin to rebuild
America. It means expanding
broadband lines across America,
so that a small business in a rural
town can connect and compete with
their counterparts anywhere in the
world. And it means investing in the
science, research, and technology
that will lead to new medical
breakthroughs, new discoveries,
and entire new industries.
Barack Obama
“Our digital networks will
be the backbone of our
economy in the decades
ahead, Britain must invest
in the industries of the
future
as it fights its way out of
recession”
Gordon Brown,
“..the Australian Government
views the provision of
broadband access as an
essential nation-building
activity. It is the key to how
we will participate in the future
economic, political and social
life of the country.”
Senator Stephen Conroy,
Minister for Broadband,
Communications and the
Digital Economy.
Mobility Management For Next Generation NetworksGreen Packet
Increasingly, operators worldwide will be faced with a similar challenge of managing data congestion over multiple access networks. With networks evolving into LTE, operators would need to carefully assess the technology fit into integrating complementary nature of multiple access networks into an all-IP flat architecture. An all IP flat architecture helps to tie heterogeneous access networks that devices can attach to access end-user services. Communication devices today are able to connect with more than one type of wireless technologies to the “web of things”. An end-user will connect to a Wi-Fi hotspot, if within range. When moving away from range, the communication link is handover to for example, UMTS. The motivation of inter-working lies in marrying the diverse strengths of each communication technology. High-bandwidth data communication inherent in WLAN lacks mobility. Conversely, cellular technologies such as UMTS succeed in highly mobile environments, but limited in bandwidth. Although cellular networks are evolving from today’s 3G to LTE that brings promise of capacity leaps (by nearly 4 times), the overall data growth projection will outpace LTE deployments and fill up very quickly.
The immediate need to curtail congested network and effectively manage mobility is imminent to accommodate the data traffic on their networks. The impact of inter-mobility between inter access technology together with various types of mobility support including 3GPP legacy network and non 3GPP is necessary to provide a target low-latency, higher data-rate, all-IP core network capable of supporting real-time packet services. Some of the available IP mobility protocols lack sufficient control to the network to optimize the handover process and do not handle well with slow connection setups of some wireless technologies. This paper highlights the potential approaches of bringing together mobility technologies that are available and how these approaches contribute to resolve operator concerns in deployment of services and combating congestion, access technology integration and evolution to LTE from legacy 3GPP networks.
Customer needs more from the innovation. The innovation which are use resemble TV, Clothes washer, cooler, Mobile Phones. The most needed element of web is acceptable execution and quicker access. The Cellular Subscriber pay extra for the moment include and the entrance of web on their telephones. To help such ground breaking framework we need fast remote network. A remote innovation is bow quick nowadays. An as of late wired system was expected to get on the web. These days, Mobile systems are progressed in last four decades. The cell idea which was present with 1G where G represents age organize. It has increments quicker from age to age, which are 1G,2G,3G, lastly come to 4G. Pradnya Pramod Mohite "5G System-Trends & Development" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30411.pdf Paper Url :https://www.ijtsrd.com/computer-science/computer-network/30411/5g-systemtrends-and-development/pradnya-pramod-mohite
LTE Broadcast - Lessons Learned from Trials and Early DeploymentsDanny Dicks
Innovation Observatory has produced a white paper for the LTE Broadcast Alliance that shows the progress being made in the development of eMBMS technology and broadcast / multicast services by operators and vendors around the world. The paper, "LTE Broadcast – Lessons Learned from Trials and Early Deployments", highlights the proofs of concept that have been completed and are underway, the commercial services launched, and new services nearing commercialization.
Many technical trials have proved the effectiveness of eMBMS technology and its ability to support multiple deployment models. Issues identified during early trials have been resolved, and operators, network equipment providers, middleware, chipset and device vendors now know what is required and can take steps now to drive LTE Broadcast forward to a successful future.
Dozens of recent announcements including facts and reports from mobile network operators worldwide confirming mobile broadband market successes, traffic and revenue growth enabled by WCDMA-HSPA systems
This is a short presentation on 5G technology with images and GIFs. The contents include components of 5g, How is 5g used and is 5g Available in my city.
Abstract:The number of people using mobile phone in the world has exceeded 4.5 billion and this figure is continuing to grow. For the past several years, mobile data traffic such as internet access, the downloading of music and video communication has been nearly tripling every year. With the popularity of smartphones, mobile data traffic will increase 200 times in the 7 to 8 years upto 2020.There are high expectations that Long Term Evolution (LTE) which is known as 3.9G wireless system will be a new service platform that can support a huge amount of mobile data traffic. This paper describes the features, technology and network architecture of LTE & also provides an overview of next generation telecommunication network LTE, which is started commercially in December 2010 in Japan (started by DOCOMO), realizing high speed wireless access. It also outlines the further trends towards a further speed increase. Keywords-Circuit Switching, GSM, HSPA, LTE, Packet Switching, WiMAX