To solve the 1000x mobile data challenge, we need more small cells, actually, much more, and everywhere— indoors and outdoors, in residences and in enterprises, in all the familiar flavors—3G, 4G and Wi-Fi, and in many different forms — femtos, picos, metros, relays, remote radio heads, distributed antenna systems, etc.! But, isn’t interference a limiting factor? How dense can we deploy them? Can we use new inside-out deployment models?. What are the future enhancements that takes HetNets to the next level?.
For more information, see also www.qualcomm.com/1000x
Download the presentation here: http://www.qualcomm.com/media/documents/1000x-more-small-cells
Interested or exploring GPON technology? This document will help you to gain an understanding of the technology and discover why this maturing, disruptive technology is part of the future of your campus network. Discover the Difference, Discover GPON today.
Fixed networks have the advantages of large bandwidth, low latency, high stability and flexibility, and can provide high-quality network services, so they have been widely used. However, in the development of fixed networks, there has never been a generational division of technology, which limits the development of fixed network technology to a certain extent.
We divide the development course of the fixed network into 5 stages according to the characteristics of different development stages. At present, the fixed network is entering the fifth-generation fixed network era (F5G), the F5G development.
The collaboration of wireless networks and fixed networks can provide better performance and user experience. Compared with wireless networks, fixed networks can provide greater bandwidth and higher availability.
The expansion of wireless networks needs to rely on fixed networks. Optical fiber is the best connection medium for wireless base stations. Mobile network services with large bandwidth, wide-coverage, and low latency need to be accessed and carried by optical fiber.
F5G can improve communication speed and user experience, provide gigabit access, ensure latency and reliability, and realize fiber-to-the-everywhere-and-everything (FTTE, Fiber-To-The-Everywhere-and-Everything).
The key problem that the current fixed network urgently needs to solve is how to realize large-scale networking and management based on higher speed and more flexible optical transmission technology.
The pace of LTE network deployment is accelerating all over the world, which enables more and more advanced services and Internet applications making use of the inherent benefits of LTE such as higher data rate, lower latency and enhanced coverage, etc. Widely deployed LTE based infrastructure provides the opportunity for the vehicle industry to realize the concept of ‘connected car’. By providing a vehicle access into the LTE network infrastructure, a vehicle can be connected to the Internet and other vehicles so that a broad range of existing or new services can be envisaged for the vehicle industry and the mobile industry as well.
Importantly, Proximity Service (ProSe) introduced in Release 12 will also provide functionalities to implement V2X services. Furthermore, LTE-based broadcast services such as PWS and eMBMS could provide additional functionalities for V2X services. It can be considered that some services will rely on wide-area network access which may be provided by GSM, UMTS, or by LTE.
This study proposes to document V2X use cases and assess the applicability of LTE technology to meet the operator, end-user and automotive industry expectations.
To solve the 1000x mobile data challenge, we need more small cells, actually, much more, and everywhere— indoors and outdoors, in residences and in enterprises, in all the familiar flavors—3G, 4G and Wi-Fi, and in many different forms — femtos, picos, metros, relays, remote radio heads, distributed antenna systems, etc.! But, isn’t interference a limiting factor? How dense can we deploy them? Can we use new inside-out deployment models?. What are the future enhancements that takes HetNets to the next level?.
For more information, see also www.qualcomm.com/1000x
Download the presentation here: http://www.qualcomm.com/media/documents/1000x-more-small-cells
Interested or exploring GPON technology? This document will help you to gain an understanding of the technology and discover why this maturing, disruptive technology is part of the future of your campus network. Discover the Difference, Discover GPON today.
Fixed networks have the advantages of large bandwidth, low latency, high stability and flexibility, and can provide high-quality network services, so they have been widely used. However, in the development of fixed networks, there has never been a generational division of technology, which limits the development of fixed network technology to a certain extent.
We divide the development course of the fixed network into 5 stages according to the characteristics of different development stages. At present, the fixed network is entering the fifth-generation fixed network era (F5G), the F5G development.
The collaboration of wireless networks and fixed networks can provide better performance and user experience. Compared with wireless networks, fixed networks can provide greater bandwidth and higher availability.
The expansion of wireless networks needs to rely on fixed networks. Optical fiber is the best connection medium for wireless base stations. Mobile network services with large bandwidth, wide-coverage, and low latency need to be accessed and carried by optical fiber.
F5G can improve communication speed and user experience, provide gigabit access, ensure latency and reliability, and realize fiber-to-the-everywhere-and-everything (FTTE, Fiber-To-The-Everywhere-and-Everything).
The key problem that the current fixed network urgently needs to solve is how to realize large-scale networking and management based on higher speed and more flexible optical transmission technology.
The pace of LTE network deployment is accelerating all over the world, which enables more and more advanced services and Internet applications making use of the inherent benefits of LTE such as higher data rate, lower latency and enhanced coverage, etc. Widely deployed LTE based infrastructure provides the opportunity for the vehicle industry to realize the concept of ‘connected car’. By providing a vehicle access into the LTE network infrastructure, a vehicle can be connected to the Internet and other vehicles so that a broad range of existing or new services can be envisaged for the vehicle industry and the mobile industry as well.
Importantly, Proximity Service (ProSe) introduced in Release 12 will also provide functionalities to implement V2X services. Furthermore, LTE-based broadcast services such as PWS and eMBMS could provide additional functionalities for V2X services. It can be considered that some services will rely on wide-area network access which may be provided by GSM, UMTS, or by LTE.
This study proposes to document V2X use cases and assess the applicability of LTE technology to meet the operator, end-user and automotive industry expectations.
How to design, deploy and run a successful municipal video surveillance program. Read the Q&A at Firetide's blog: http://kseniacoffman.wordpress.com/2010/09/24/muni-video-mesh-webinar-presentation/
Long term evolution lte-mimo- patent and technology report - key players, i...Dolcera Corporation
A Dolcera Report production about Long Term Evolution (LTE) - MIMO, major players and technological developments.
The report focuses on technology, industry and patent landscape of the concerned topic.
The Dolcera center of excellence finds about growth of a technology; competition- key players, innovators; gaps and opportunities in the technology and industry with the analyses of patents and trends as the core.
This presentation is a brief introduction to the detailed Dolcera Report on Long Term Evolution (LTE) - MIMO.
For more details and complete report contact info@dolcera.com
Dallas Muni Video Surveillance Tour ASIS 2010Firetide
Dallas Muni Video Surveillance Tour at ASIS 2010 Conference: downtown bus tour, Mobile Command Center, 911 Center, Police Dispatch, and Camera Unit.
Design and integration services from Bearcom; video mesh from Firetide; video management/PSIM software from OnSSI,
Firetide IVS-100 is an integrated wireless mesh video surveillance solution supporting municipal, transportation, public safety and commercial security applications.
Options and best practices for deploying wireless infrastructure for transportation and mass transit: wireless offload, security, video surveillance, mobile video.
Innovations for Better Performing NetworksAviat Networks
In the past decades one innovation has radically changed the way we approach our daily life - the smartphone. Adopted by the entire world this indispensable device combines three core characteristics: intelligence, compactness, and simplicity of use. Now, imagine if you applied these same characteristics to your network. The future is smarter ,smaller, simple.
Backhaul Inside Out Webinar Slide Deck Oct 2011Wi-Fi 360
The evolution of mobile networks to 4G technologies, and primarily LTE, sets additional requirements and challenges for operator backhaul networks. The selection of flexible and future-proof microwave backhaul technologies is of paramount importance. Join this webinar to learn from Maravedis and Intracom wireless experts about critical trends in backhaul technologies and markets.
In this webinar you will learn:
•Specific benefits that different architecture types provide for 4G deployments, including ease of deployment, agility and resiliency.
•How the use of Point-to-Multipoint (PtMP) technology, which can perfectly complement Point-to-Point (PtP) microwave (MW), especially in urban and dense urban areas, can transform an operator\'s business model and generate a rapid ROI.
•How solutions that combine compact high-nodal PtP, multi-sector PtMP and full outdoor PtP/E-band variants offer unique network deployment benefits in high-density urban areas
How to design, deploy and run a successful municipal video surveillance program. Read the Q&A at Firetide's blog: http://kseniacoffman.wordpress.com/2010/09/24/muni-video-mesh-webinar-presentation/
Long term evolution lte-mimo- patent and technology report - key players, i...Dolcera Corporation
A Dolcera Report production about Long Term Evolution (LTE) - MIMO, major players and technological developments.
The report focuses on technology, industry and patent landscape of the concerned topic.
The Dolcera center of excellence finds about growth of a technology; competition- key players, innovators; gaps and opportunities in the technology and industry with the analyses of patents and trends as the core.
This presentation is a brief introduction to the detailed Dolcera Report on Long Term Evolution (LTE) - MIMO.
For more details and complete report contact info@dolcera.com
Dallas Muni Video Surveillance Tour ASIS 2010Firetide
Dallas Muni Video Surveillance Tour at ASIS 2010 Conference: downtown bus tour, Mobile Command Center, 911 Center, Police Dispatch, and Camera Unit.
Design and integration services from Bearcom; video mesh from Firetide; video management/PSIM software from OnSSI,
Firetide IVS-100 is an integrated wireless mesh video surveillance solution supporting municipal, transportation, public safety and commercial security applications.
Options and best practices for deploying wireless infrastructure for transportation and mass transit: wireless offload, security, video surveillance, mobile video.
Innovations for Better Performing NetworksAviat Networks
In the past decades one innovation has radically changed the way we approach our daily life - the smartphone. Adopted by the entire world this indispensable device combines three core characteristics: intelligence, compactness, and simplicity of use. Now, imagine if you applied these same characteristics to your network. The future is smarter ,smaller, simple.
Backhaul Inside Out Webinar Slide Deck Oct 2011Wi-Fi 360
The evolution of mobile networks to 4G technologies, and primarily LTE, sets additional requirements and challenges for operator backhaul networks. The selection of flexible and future-proof microwave backhaul technologies is of paramount importance. Join this webinar to learn from Maravedis and Intracom wireless experts about critical trends in backhaul technologies and markets.
In this webinar you will learn:
•Specific benefits that different architecture types provide for 4G deployments, including ease of deployment, agility and resiliency.
•How the use of Point-to-Multipoint (PtMP) technology, which can perfectly complement Point-to-Point (PtP) microwave (MW), especially in urban and dense urban areas, can transform an operator\'s business model and generate a rapid ROI.
•How solutions that combine compact high-nodal PtP, multi-sector PtMP and full outdoor PtP/E-band variants offer unique network deployment benefits in high-density urban areas
Seserv workshop alissa cooper - net neutrality practicesictseserv
In the context of net neutrality debates occuring around the world, a central question concerns the extent to which network operators should be free to manage certain Internet applications differently from others. Some stakeholders advocate for regulatory intervention on the basis that this sort of traffic management gives network operators too much power over which applications succeed or fail, while others argue for reliance on competition between network operators to discipline operator behavior. Yet evidence from the UK and the US suggests that the practical reality of how network operators have gone about managing traffic in the last half decade is not entirely consistent with expectations about the disciplining power of either regulatory or competitive forces in the marketplace. Understanding why Internet traffic ultimately gets managed in a particular way requires a deeper understanding of the interplay between technical, economic, political, and social dynamics confronting network operators.
UK Spectrum Policy Forum - Simon Pike, Vodafone - 5G UK vision update plenary...techUK
UK Spectrum Policy Forum
Plenary meeting – 10 April 2014
Simon Pike, Chief Engineer, Regulatory and Spectrum, Vodafone
5G: A UK Perspective – update on progress
See more at: http://www.techuk.org/about/uk-spectrum-policy-forum
All rights reserved
Commerce Commission NZ - High speed broadband technical issues paper - 19 dec...Silvia Zanini
The Commerce Commission has released the first of three issues papers relating to the uptake of high speed broadband ahead of a public conference in February 2012. The paper examines the technical issues that the Commission has identified as being relevant to the uptake of high speed broadband services.
The key technical issues addressed in the paper are:
1. The cost of non-standard connections, premises re-wiring and the provision of customer premises equipment
2. National and international transit
3. Peering, internet protocol (IP) interconnection and network neutrality
4. Data caps
The paper also makes a number of observations on potential barriers to the uptake of high speed broadband services, including:
1. The cost to residential and business customers of paying for non-standard connections is likely to be a significant barrier to the uptake of high speed broadband. Premises re-wiring and cost of customer premises equipment (CPE) replacements may also inhibit the uptake of high speed broadband.
2. If current market trends continue, national and international transit and data caps are likely to be less significant issues for the uptake of high speed broadband. Peering, IP interconnection and network neutrality do not appear to be significant issues.
Two further papers will be released in early 2012 which set out issues that will be considered in depth at The Future with High Speed Broadband: Opportunities for New Zealand conference. These papers will look at e-health and e-education, and willingness to pay, content, and applications. They will be released in late January and early February 2012 respectively.
APNIC Training Delivery Manager Terry Sweetser presents an overview of Internet Exchange Points at PacNOG 31, held in Port Vila, Vanuatu from 26 to 30 June 2023.
PITA 27th AGM & Business Forum Expo 23: Internet Exchange PointsAPNIC
APNIC Training Delivery Manager Terry Sweetser presented on smarter networking and Internet traffic efficiency with Internet Exchange Points at the PITA 27th AGM & Business Forum Expo 23, held from 29 May to 1 June 2023, in Port Moresby, Papua New Guinea.
Analysys Mason - the opportunity for LPWA solutionsTom Rebbeck
These slides, taken from our report, explore the market opportunity for LPWA solutions. The full report can be found at http://bit.ly/1uynFVO
Telecoms operators and vendors are exploring alternatives to traditional cellular technology to address the specific needs of machine-to-machine (M2M) and Internet of Things (IoT) services.
These technologies – called low-power, wide-area (LPWA) solutions – have three main advantages over the traditional networks:
lower cost: the target is produce modems for less than USD5
battery powered: the aim is to get 10 years of service from one AA battery
strong propagation: LPWA will have greater propagation than traditional cellular.
These characteristics open up markets for which traditional cellular technology is unsuitable – for example, where high module costs made the business case unviable or for devices that do not have a permanent power source, such as water meters.
We believe that LPWA services can target a market of more than 3 billion M2M connections worldwide by 2023, and generate over USD10 billion from connectivity revenue alone.
Similar to Qo E E2 E3 European Response To Network Neutrality Liyang Hou (20)
Qo E E2 E3 European Response To Network Neutrality Liyang Hou
1. The European Response to
Network Neutrality in the Context
of the Electronic Communications
Reform
Liyang Hou
IBBT – ICRI – KUL
E2E-QoE Final Workshop
IMEC, 26/01/2009
2
1
2. “I will take a backseat to no one in my commitment
to network neutrality. The Internet is the most open
network in history. We have to keep it that way.”
----- Barack Obama
3
“A truly open digital economy based on interoperable
networks and inclusive access to the internet is of crucial
importance.”
----- Viviane Reding
4
2
3. What is Network Neutrality?
A neutral network means that all the data are transmitted
on the Internet in the same way.
However, in case of congestion, there is NO guarantee
of quality of experience.
5
6
3
4. What is Network Neutrality?
The idea of a non-neutral network thus appears.
A technology, i.e. traffic shaping, can make different data
to be transmitted in different ways and thus offer
guaranteed quality of experience.
7
What is Network Neutrality?
8
4
5. What is Network Neutrality?
However, Traffic shaping
on the one hand challenges the long standing principle
of end-to-end connectivity/first-come-first-served, as
well as the technologies developed based upon this
principle, e.g. the results of our project.
On the other hand can potentially allow network
operators to disfavour data from unaffiliated
companies.
9
Our Research Question
The whole debate on network neutrality focuses on the
possibility of discrimination by network operators.
Our research circumvents this discussion.
Our Main Research Question is whether the European
legal framework can apply if discrimination actually takes
place.
l
10
5
6. CASE 1
Blocking
End-users 1
VoIP A
BP End-users 2
VoIP B
End-users 3
11
CASE 2
Discriminatory Degradation
End-users 1
VoIP A
BP End-users 2
VoIP B
End-users 3
12
6
7. CASE 3
End-users 1
VoIP A
BP End-users 2
VoIP B
End-users 3
13
CASE 3
General Degradation
End-users 1
VoIP A
BP End-users 2
VoIP B
End-users 3
14
7
8. The Legal Reform
The current Regulatory Framework in the electronic
communications sector is under review;
Network neutrality issues are paid with great attention in
this review process;
The legislative proposals are expected to be adopted
before 2010
b f 2010.
15
Case 3
Regulatory authorities can set up a minimum level of
quality of service. Network operators are not allowed to
degrade the transmission service below this level.
16
8
9. CASE 4
End-users 1
VoIP A
BP End-users 2
VoIP B
End-users 3
17
18
9
10. CASE 4
Reserving prioritising services
End-users 1
VoIP A
BP End-users 2
VoIP B
End-users 3
19
Case 4
Since traffic shaping has not been widely exploited by the
broadband industry, it is difficult to make a decision now.
Therefore, it is proposed that regulatory authorities should
closely monitor the development and take action when
necessary.
20
10
11. CASE 5
Restrictions on applications or terminal
equipments
Kotnet ME
21
Case 5
Network operators should make the public informed of any
restriction on running applications or using terminal
equipments on their networks.
22
11
12. Our conclusions
Network neutrality does raise a set of problems, though
potential, that can not be dealt with under the existing
rules;
Nevertheless, the undergoing proposals can, on the one
hand, strike a good balance between the economic
benefits and the risks of the non-neutral network; and on
the other hand appropriately deal with those potential
hand,
network neutrality problems.
23
Q&A
24
12