Telefónica Móviles España Status of trial-ready GPRS and UMTS networks in the trial countries.

Slides:

Advertisements

Similar presentations

Communication Topics Jason Hill –

Advertisements

Multi-Access Services in Heterogeneous Wireless Networks Kameswari Chebrolu, Ramesh R. Rao Abstract Today's wireless world is characterized by heterogeneity.

Colombo, Sri Lanka, 7-10 April 2009 Preferential Telecommunications Service Access Networks Lakshmi Raman, Senior Staff Engineer Intellectual Ventures.

Switching Techniques In large networks there might be multiple paths linking sender and receiver. Information may be switched as it travels through various.

Next Generation (NextG) Wireless Networks 7/2/2004 Farid Farahmand.

Telefónica Móviles España WP3 meeting G Communication Infrastructure.

ECE358: Computer Networks Fall 2014

Scheduling in Wireless Systems. 2 CDMA2000: Overall Architecture Mobile Station.

CELLULAR COMMUNICATIONS GSM/GPRS/EDGE. Groupe Speciale Mobile/Global System for Mobile.

4G-TECHNOLOGY. CONTENTS Introduction What is 4G? Evolution of 4G A look at fundamental requirements Evolution of processors and DSP Technology for 4G.

UMA (Unlicensed Mobile Access) El Ayoubi Ahmed Hjiaj Karim.

To change the document information in the footer, press [Alt + F8] and use the “FORM“ R 18 G 65 B 145 R 0 G 201 B 255 R 104 G 113 B 122 R 216 G 217 B 218.

TETRA Inter System Interface (ISI)

Telefónica Móviles España GPRS (General Packet Radio Service)

Tutorial 8 Mohamed Esam Mobile Communications Omni Cell planning Sectorization Sectorization

Lecture 12: NMT, GSM, UMTS Anders Västberg Slides are a selection from the slides from chapter 10 from:

Telefónica Móviles España UMTS (Universal Mobile Telecommunications System)

Introduction Future wireless systems will be characterized by their heterogeneity - availability of multiple access systems in the same physical space.

Overview.  UMTS (Universal Mobile Telecommunication System) the third generation mobile communication systems.

Ncue-csie1 A QoS Guaranteed Multipolling Scheme for Voice Traffic in IEEE Wireless LANs Der-Jiunn Deng 、 Chong-Shuo Fan 、 Chao-Yang Lin Speaker:

CDMA X RTT Overview. Global 3G Evolution.

Reliable Transport Layers in Wireless Networks Mark Perillo Electrical and Computer Engineering.

Networks Evolving? Justin Champion C208 Ext:3723

Internetworking Fundamentals (Lecture #2) Andres Rengifo Copyright 2008.

Mobile Handset Cellular Network Basics + GSM. Cellular Network Basics There are many types of cellular services; before delving into details, focus on.

1 Progress made in specifying the GERAN Andrew Howell, Chairman (Motorola) Marc Grant, Vice-Chairman (Cingular Wireless)

FAQs and Overview on SCADA, Telemetry and Telecontrol using TETRA-Infrastructure Funk-Electronic Piciorgros GmbH Michael D. Piciorgros (CEO)

Switching Techniques Student: Blidaru Catalina Elena.

Istanbul, April.2014GSM-R Packet Switched Technology Ingo Wendler / UIC Project Manager - ETCS over GPRS GSM-R Packet Switched Technology Introduction.

1 © 2007 Nokia Optimization of EGPRS Link Adaptation Thesis work presentation Author: Jussi Nervola Supervisor:Professor.

Telefónica Móviles España WP3 meeting G Communication Infrastructure Madrid, November 12 & 13, 2002.

1. Collision domains are unsecure 2. The employees often need to remote access to corporate network resources  The Internet traffic is much more vulnerable.

Submitted By :-  Megha Bagde  Maheshwary Dhanker  Muskan Thantharate  Chitra Netam.

Unwanted Link Layer Traffic in Large IEEE Wireless Network By Naga V K Akkineni.

© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 7: Transport Layer Introduction to Networking.

November TETRA Data Today and Tomorrow Mark Edwards Principal Staff Engineer Motorola European System Design Centre.

Lectured By: Vivek Dimri Assistant Professor, CSE Dept. SET, Sharda University, Gr. Noida.

WSB / MobiHealth Hugo Geuverink MobiHealth WP3 meeting 12/13 November 2002, Madrid.

Presentation by Papua New Guinea Telecommunication & Radiocommunication Technical Authority (PANGTEL) For: PNG COMPUTER SOCIETY ANNUAL SEMINAR, 4th November.

TCP PERFORMANCE OVER AD HOC NETWORKS Presented by Vishwanee Raghoonundun Assisted by Maheshwarnath Behary MSc Computer Networks Middlesex University.

1 WAP Downlink Performance Evaluation in UMTS Network / / Pertti Hakkarainen HELSINKI UNIVERSITY OF TECHNOLOGY WAP Downlink Performance Evaluation.

University of the Western Cape Chapter 12: The Transport Layer.

Standards Convergence Dave Evans Philips Research Laboratories UK

Switching breaks up large collision domains into smaller ones Collision domain is a network segment with two or more devices sharing the same Introduction.

06/09/2005Master's Thesis Seminar - Jesse Kruus 1 Analyzing and Developing Base Load for WCDMA Base Station Automated Testing System Thesis written at.

ﺑﺴﻢﺍﷲﺍﻠﺭﺣﻣﻥﺍﻠﺭﺣﻳﻡ. Group Members Nadia Malik01 Malik Fawad03.

1 © 2003, Cisco Systems, Inc. All rights reserved. CCNA 3 v3.0 Module 4 Switching Concepts.

Data Comm. & Networks Instructor: Ibrahim Tariq Lecture 3.

Components of the WAP Standard Layers of WAP divided into 3 groups Bearer Adaptation Hides the differences in the signaling and channel protocols used.

Medium Access Control protocols for ad hoc wireless networks: A survey 指導教授 : 許子衡報告者 : 黃群凱.

Circuit-switched data

Telefónica Móviles España Deliverable 3.1 WP G Communication Infrastructure.

GPRS 1. Before GPRS: HSCSD  HSCSD or High Speed Circuit Switched Data was the first upgrade to be standardized by ETSI to bring high speed data to GSM.

ALSTOM FREQUENTIS HFWK KAPSCH SELEX NORTEL SAGEM SIEMENS WENZEL 1 INDUSTRY GROUP UIC ERTMS Conference Budapest April 2006 Capacity Enhancement For GSM-R.

INTRODUCTION:- The approaching 4G (fourth generation) mobile communication systems are projected to solve still-remaining problems of 3G (third generation)

HSPA/HSDPA (Beyond 3G) PRESENTED BY- NEHA ANAND NUPUR ANAND ROLL NO-50 ROLL NO-55.

Adaptive Roaming between LTE and Wi-Fi 1 Daeguil Science high school, Daegu, Republic of Korea. 2 Daegu Gyeongbuk Institute of Science and Technology,

Overview Of 3G Mobile. 3G AWARENESS 3G is the next generation mobile communications systems. 3G is basically an ITU defined set of standards, which along.

Cellular Network Base stations transmit to and receive from mobiles at the assigned spectrum Multiple base stations use the same spectrum The service area.

GLOBAL SYSTEM FOR MOBILE COMMUNICATION

Unlicensed Mobile Access (UMA ) Introduction and Overview Andrew Santarelli David Schraitle Matt Eberts Miguel Ibarra Mohammed Shareef.

System Architecture for C2C Communications Based on Mobile WiMAX Michiyo ASHIDA VTT Technical Research Centre of Finland

EDGE TECHNOLOGY AN EVOLUTION IN MOBILE TECHNOLOGY PRESENTED BY KIRAN KUMAR.

Introduction to “Tap – Dance ”. Company Proprietary Presentation Topics  Introduction  Handover scenarios  Inter-Network Handover consequences  Common.

McGraw-Hill©The McGraw-Hill Companies, Inc., 2000 Muhammad Waseem Iqbal Lecture # 20 Data Communication.

Packet Switching Datagram Approach Virtual Circuit Approach

Switching Techniques In large networks there might be multiple paths linking sender and receiver. Information may be switched as it travels through various.

MobiHealth Communication Infrastructure

BLUETOOTH Personal Area Networking [ PAN ] over Bluetooth

Switching Techniques.

Presentation transcript:

Telefónica Móviles España Status of trial-ready GPRS and UMTS networks in the trial countries

2  GPRS and UMTS state in each trial site  Technical requirements and limitations in each trial scenario

3 GPRS and UMTS situation in each trial site  Operators  GPRS communication infrastructure:  Commercially available providers  GPRS roaming partnership  Coverage maps  UMTS state Spain The Netherlands Sweden Germany

4 GPRS and UMTS situation in Spain Operator: Telefónica Móviles España GPRS communication infrastructure: –Commercially available provider: Nokia –GPRS roaming partnership:

5 GPRS and UMTS situation in Spain GPRS Coverage maps: TME offers national coverage for GPRS network GPRS coverage in Barcelona city and surroundings, where the trials will take place

6 GPRS and UMTS situation in Spain UMTS state: –Telefónica Móviles España has UMTS radio coverage in 21 Spanish cities since the 1st June –TME is working in the commercial launching for the beginning of –Anyway, the availability of UMTS devices will determine the commercial launching of UMTS services. –Due to the problems for the deployment of new antenna in urban zones, the UMTS test bed for the trials will be limited to restricted points of coverage. –We are working on having a test bed in Madrid during the trials for a limited period of time. Interoperability issues make difficult to be ready in Barcelona area during the project.

7 GPRS and UMTS situation in The Netherlands Operators: O2 (GPRS) and Vodafone (UMTS) GPRS communication infrastructure: –Commercially available provider: Ericsson –GPRS roaming partnership: O2 offers GPRS roaming service in Germany

8 –Coverage maps: O2 provides coverage to the 98% of the population. GPRS coverage in Enschede and surroundings, where the trials will take place GPRS and UMTS situation in The Netherlands UMTS state: Vodafone will provide its pre-commercial UMTS network infrastructure in the Twente region for the MobiHealth trials during a limited period of time.

9 GPRS and UMTS situation in Germany Operators: D2-Vodafone (GPRS) GPRS communication infrastructure: –Commercially available provider: Siemens –GPRS roaming partnership: D2-Vodafone has GPRS roaming agreement with Vodafone in the Netherlands

10 –Coverage maps: D2-Vodafone provides coverage to the 98% of the population. GPRS coverage in Duigsburg and surroundings, where the trials will take place GPRS and UMTS situation in Germany UMTS state: There will not be a UMTS test in Germany in a first step. At a later stage, it is possible that there will be any contact with a German mobile operator for the UMTS trials.

11 GPRS and UMTS situation in Sweden Operators: Telia GPRS communication infrastructure: –Commercially available provider: Ericsson / Nokia –GPRS roaming partnership: Telia has GPRS roaming agreements with 18 mobile operators in 16 countries around the world. The interesting roaming partnerships for the project are:

12 –Coverage maps: GPRS coverage offered by Telia. GPRS coverage in Lulea and surroundings, where the trials will take place GPRS and UMTS situation in Sweden

13 GPRS and UMTS situation in Sweden UMTS state: –Telia and Tele2 have partnership in Svenska UMTS-Nät AB, the company responsible for the third generation UMTS network in Sweden. Telia and Tele2 have rolled out base stations in most Swedish cities according to the commitment to PTS (Post och Telestyrelsen) in Sweden. –Telia don’t support 3G commercial services at the moment, but will start testing UMTS services soon. –Telia will intend to incorporate MobiHealth trials in the overall service tests. This means also that the MobiHealth UMTS trials might be moved from Luleå area to some other test site.

14 Technical requirements and limitations in each trial scenario Some important issues to be considered while defining the communication infrastructure between the BAN and the client application in the hospital are: Bandwidth Coverage and availability Reliability Traffic management Security Mobility

15 GSM Voice: 1 conversation  1 channel 1 channel for GSM data  9.6 kbps Radio Carrier: 8 channels GPRS: Use of until 8 channels per user Depending on the code algorithm, we can get several transmission rates: CS- 1: 9.05 kbps/slot CS- 3: 15.6 kbps/slot CS- 2: 13.4 kbps/slotCS- 4: 21.4 kbps/slot Actually terminals use different number of slots: 4 (downlink) + 2 (uplink) UMTS: 64 Kbps (both Uplink and Downlink). Circuit switching domain (CSD) 128 Kbps (both Uplink and Downlink). Packet switching domain (PSD) GPRS and UMTS rates

16 Bandwidth GPRS  The maximum bit rate depends mainly on the number of available timeslots and the coding scheme used for the communication. UMTS  We assume a link of 64 kbps According to the technology available today: Codings schemes CS1 and CS2 Terminals (2 time slots for the uplink), and considering a maximum data overhead/loss rate of 10%, the maximum bit rate for GPRS and UMTS are:

17 Bandwidth The required bandwidth and the transmission times depend on the amount of data generated by the BAN (according to the used sensors and the duration of the measurement session) and the technology used for transmitting. Two options for transmitting: –Real–time transmission -> The link has to offer enough bandwidth –No real-time transmission:  Maximum transmission time (for the worse case: CS1 / 1TS)  Minimum transmission time (for the best case: CS2 / 2TS)

18 Bandwidth for real time transmission

19 Times of transmission

20 Coverage and availability GPRS coverage is guaranteed in all the trials sites (Barcelona city in Spain, Lulea region in Sweden, Enschede centre in the Netherlands and Duisburg region in Germany). UMTS coverage is not guaranteed because european 3G operators haven’t launched commercial UMTS services. Telia and TME intention is to provide UMTS test beds but they can´t guarantee their availability in the location of the trial sites during the project.

21 Reliability Several tests have been achieved over O2, TME and Telia GPRS networks in order to measure the reliability of GPRS networks in the project: –Measurements of TCP/UDP performance over the O2 (The Netherlands) and TME (Spain) GPRS networks TCP (Transport Control Protocol) suitable for BAN control data from the end-host to the BAN UDP (User Data Protocol) suitable for sending BAN data (assuming some data loss) The performance of nowadays' GPRS networks might be sufficient to meet the data rates needed in 90 % of the MobiHealth trials –Meaurements of throughput and latency over the Telia (Sweden) GPRS network: It is necessary to develop network aware applications that can adapt to the latency by deploying appropriate buffering schemes.

22 Traffic management Data transmission has priority over voice transmission in data dedicated channels. The number of physical channels used for packet data traffic depends on the data traffic congestion and the voice traffic. Depending on the number of dedicated channel in the trial location, the traffic congestion and the voice traffic, the data traffic offered by the operators involved in the trials will be affected.

23 Security Two security services are required to guarantee the confidentiality of patient information: –Data Confidentiality to protect the transmitted patients data from unwanted access. –User and server authentication to ensure the identity of the patients sending the data and the server that is receiving the data. Two different security protocols will be used in the path from the BAN to the server: –Transport Layer SSL connection, with data encryption and X.509 certificates-based client and Server authentication. –Data link layer level security provided by the GPRS Radio Access Network, with terminal authentication and data encryption. Several tests of the performance of security packages for the MBU have been achieved over the TME GPRS network.

24 Mobility Roaming functionality allows the users to establish GPRS connections from a foreign country according to the roaming agreement. If the user roams to another network during a GPRS connection, the link goes down. In the same network, handovers don't produce any disconnection. Regarding to UMTS, network operators in general don’t expect to support roaming functionality in their first phase. UMTS handover could be supported.

25 Conclusions GPRS services are fully available in all the trial scenarios locations (Barcelona city in Spain, Lulea region in Sweden, Enschede centre in the Netherlands and Duisburg region in Germany). The current situation of UMTS is not suitable for a complete evaluation of medical applications because only test beds, short periods of trials and prototype terminals can be achieved. The technical requirements of the trial scenarios related to bandwidth, coverage, availability, reliability, traffic management, security, and mobility can be fulfilled by the nowadays GPRS technology.