Program1

4G & Evolution

Program2

5G eMBB

Program3

IoT

Program4

IoV

Program5

Cloud Robot

Coordinators

Guangyi Liu     China Mobile

Carlson Chu    PCCW

Chengke Tang    Huawei

Objective

Facing the rapid development of data requirements on new service & applications, efficient utilization of LTE is in need to enhance performance and service capability

Work scope

Massive-MIMO, Uplink Enhancement, VoLTE, Smooth Evolution, Roaming, Innovative Business & Service, Small Cell

Work plan

2020
2017
2018
2019
  • Massive-MIMO eNB White Paper UDC,MEC and Small cell requirements and plan
  • Whitepaper update:UL CA, DL CA and HPUEDL 4*4MIMO
  • VoLTE commercial rollout and Whitepaper update
  • Smooth Evolution from 4G to 5G White Paper
  • Massive-MIMO eNB enhancement
  • Field trial:UL CA, DL CA and DL 4*4MIMO
  • eVoLTE Field trial
  • Massive-MIMO eNB further enhancement
  • TBD
  • TBD

Leader

Jiang Zhengwei    ZTE
Huanghui     Huawei

Objective

1. To promote the development of Massive MIMO product
2. To facilitate the commercialization of Massive MIMO
3. To study the evolution of Massive MIMO towards 5G

Work Scope

1. Discuss and verify the technical issues of Massive MIMO product, including product enhancements and 5G evolution. Output and update technical reports regularly
2. Analyze the benefits and experience of deploying Massive MIMO in commercial networks. Share the findings with GTI members.
3. Discuss and output the technical requirements from an industry perspective. Organize meetings and task works to faciliate Massive MIMO related devices, chipsets and test instruments.

Plan

2017

H1
1. To start the task work on terminal
2. To encourage more contributors to join the network task
3. To output Massive MIMO whitepaper v1.0
4. To complete the small scale deployment of Massive MIMO 2.0

H2
1. To output technical & commercial reports of Massive MIMO
2. To update Massive MIMO whitepaper v2.0
3. To start the study work on Massive MIMO enhancement

Leader

Bo Xie    Huawei
Shuping Chen    Qualcomm

To be updated

Leader

Zishuai Li    Huawei
Song Yue     CMCC

To be updated

Leader

Yogendra Shukla     Nokia

Objective

Facing the rapid development of data requirements on new service & applications, efficient utilization of LTE is in need to enhance performance and service capability

Work Scope

Task-S-PM1-PJ4-1: Spectrum Refarming and Coexistence (Ericsson, Nokia)
Task-N-PM1-PJ4-2: Forward Compatible Hardware( Smooth Evolution to 5G) (Ericsson, ZTE, Nokia)
Task-N-PM1-PJ4-3: Core Network Evolution (Ericsson)
Task-BS-PM1-PJ4-4: Hardware Reuse to Protect Investment

Plan

2017

H1
Collection of requirement/inputs
Spectrum
1) Collection of views for pioneer 5G bands for sub-6Ghz deployment AND operator's spectrum refarming plans for 5G evolution
2) Analyse the proposed bands for sub 6Ghz as well as high potential refarming bands and push for industry synergy either by Standardization or discussions with regulators
NWG
1) Study of 1GBps Capability in eNB, Core & Backhaul (near term 1-2 years)
a) For Core, work with 5G eMBB program to develop guidelines on how we evolve to NSA from 4G advanced Pro, evolving EPC to 5G Core
b) For Radio, HW configs for smooth migration to 5G NR
c) Enabling minimization of site visit during upgradation from LTE-A pro to 5G NR
2) Study of densification (near term 1-2 years)
Terminal
3) Study of device readiness for 1Gbps (near term 1-2 years)
Business
4) Study on protecting the current investment and how to reuse the legacy infrastructure for 5G deployment also studying the possibility to make the current hardware ready for 5G, e.g. the base station ?

H2
Discussion of topics from H1 study with operator community

2018

H1
Authoring of whitepaper from the Study/discussion done in 2017
Spectrum
1) For pioneer 5G bands for sub-6Ghz deployment AND proposed refarming bands for 5G evolution
2) Push 3GPP standardization for the sub 6Ghz bands AND publish coexistence study for the new refarming scenarios
NWG
1) Study of 1GBps Capability in eNB, Core & Backhaul (near term 1-2 years)
a) For Core, work with 5G eMBB program to develop guidelines on how we evolve to NSA from 4G advanced Pro, evolving EPC to 5G Core
b) For Radio, HW configs for smooth migration to 5G NR
c) Enabling minimization of site visit during upgradation from LTE-A pro to 5G NR
2) Study of densification (near term 1-2 years)
Terminal
3) Study of device readiness for 1Gbps (near term 1-2 years)
Business
4) Study on protecting the current investment and how to reuse the legacy infrastructure for 5G deployment also studying the possibility to make the current hardware ready for 5G, e.g. the base station ?

H2
Publishing of whitepaper and operator strategies to enable smooth evolution of the existing operator installed base

2019

H1
Spectrum
1) Iteration on sub 6Ghz and refarming discussions post white paper release.
2) Synergize operator, regulator and vendor communities via various discussions
NWG
1) Study of MultiGbps Capability in eNB, Core (long term)
2) Study of latency improvement (long term)
3) Study of cloudification (long term)
Terminal
4) Evaluation of trial capability as per chipset availability
Business
5) Investor strategies towards protecting and safeguarding existing investments as well as case studies on possibility to make the current hardware ready for 5G

2020

H1
Spectrum
1) Iteration on sub 6Ghz and refarming discussions post white paper release.
2) Synergize operator, regulator and vendor communities via various discussions
NWG
1) Study of MultiGbps Capability in eNB, Core (long term)
2) Study of latency improvement (long term)
3) Study of cloudification (long term)
Terminal
4) Evaluation of trial capability as per chipset availability
Business
5) Investor strategies towards protecting and safeguarding existing investments as well as case studies on possibility to make the current hardware ready for 5G

Leader

Kathleen Leach     Sprint

Objective

1. Provide education to GTI operators
2. Promote expansion of TD-LTE roaming. Support development of VoLTE roaming
3. Expand cross GTI Work Group Collaboration
4. Collaborate on E2E VoLTE workplan with business scenarios, models and market & industry impacts.

Work Scope

Covers TD-LTE and VoLTE Roaming activities and Whitepapers

Plan

2017

H1
1. Provide content & input on VoLTE business & roaming impacts and solutions, particularly resolution of issues at 3GPP/GSMA, along with key market & industry updates

H2
1. Based on market readiness, promote and support VoLTE roaming trials between GTI operators
2. Provide content & input on VoLTE business & roaming impacts and solutions, particularly resolution of issues at 3GPP/GSMA, along with key market & industry updates

Leader

Kathleen Leach     Sprint
PS Tang     Arete M
BaiWei    Baicells

Objective

1. To assist TDD Operators to secure funding to deploy TD-LTE Networks
2. To encourage and develop new Business Models to enable TDD Operators to address  Vertical Industries
3. To encourage Vendors and Solution Partners to provide new Funding Schemes including Revenue Sharing Schemes
4. Track MEC progress and activity including MEC Base station. Highlight key MEC use cases applicable for TDD operators. 5. Develop Wireless Broadband Whitepaper
6. To encourage TDD spectrum holding company to deploy TD-LTE network with convincing business model

Work Scope

1. Information sharing on new and innovative vertical business models 2. Interact with various VC groups interested in investing in TDD oeprators or spectrum
3. Develop Wireless BB Whitepaper
4. Track and share MEC Industry Progress (from Network and business perspective)
5. Interact with various regional regulatory / org. to promote the TD-LTE usage.

Plan

2017

H1
1. Introduce or provide updates on Vertical Industry business models for revenue generation
2. Highlight MEC base station development and implementation along with MEC Use cases
3. Assist TDD Operators to locate new sources of funding

H2
1. Introduce or provide updates on Vertical Industry business models for revenue generation
2. Assist TDD Operators to locate new sources of funding
3. Highlight MEC base station development and implementation along with MEC Use cases

Call for contributors. If you are interested, please contact GTI Secretariat [admin@gtigroup.org].

Leader

Satish Jamadagni    RJIO

To be updated

PROJECT 1:MASSIVE-MIMO PROJECT 2:UPLINK ENHANCEMENT PROJECT 3:VoLTE PROJECT 4:SMOOTH EVOLUTION PROJECT 5:ROAMING PROJECT 6:INNOVATIVE BUSINESS & SERVICE PROJECT 7:SMALL CELL PROJECT 8:eMBMS
Spectrum WG Task-S-PM1-PJ4-1:TDD Spectrum Promotion and Refarming Issues
Network WG Task-N-PM1-PJ1-1: Massive-MIMO eNB Task-N-PM1-PJ2-1: UDCTask-N-PM1-PJ2-2: UL CATask-N-PM1-PJ2-3:64QAMTask-N-PM1-PJ2-4: Uplink MIMO Task-N-PM1-PJ3-1: eVoLTE eNB Task-N-PM1-PJ4-2: Forward Compatible Hardware( Smooth Evolution to 5G)Task-N-PM1-PJ4-3: Core Network Evolution Task-N-PM1-PJ6-1: MEC Base Station Task-N-PM1-PJ7-1: LAA/LWATask-N-PM1-PJ7-2: D-MIMOTask-N-PM1-PJ7-3: DL 256QAMTask-N-PM1-PJ7-4: Interference Coordination for Small Cell Task-N-PM1-PJ7-5:Multi-Antenna support in small cellsTask-N-PM1-PJ7-6:In-building coverage Task-N-PM1-PJ8-1:eMBMS spectral efficiency and bearer efficiency enhancementsTask-N-PM1-PJ8-2: Study of mechanisms to release eNB resources if eMBMS broadcast is not planned for the service area. Co-existence of eMBMS & non-eMBMS zonesTask-N-PM1-PJ8-3: Standardise interfaces between Modem-Middleware-ApplicationTask-N-PM1-PJ8-4:Review of specifications and what is feasible for first deploymentsTask-T-PM1-PJ8-5:Open M1/M3 interface and IOT among device, middleware, RAN and Core platform vendorTask-T-PM1-PJ8-6:Exploring options of personal broadcast
Terminal WG Task-T-PM1-PJ1-2: Terminal Enhancement for Massive-MIMO Task-T-PM1-PJ2-5: UDCTask-T-PM1-PJ2-6: UL CATask-T-PM1-PJ2-7:64QAMTask-T-PM1-PJ2-8: Uplink MIMOTask-T-PM1-PJ2-9: HPUE Task-T-PM1-PJ3-2: eVoLTE DeviceTask-T-PM1-PJ3-3: Dual-VoLTE Device Task-T-PM1-PJ8-7:Requirements for low cost eMBMS LTE TDD/FDD devicesTask-T-PM1-PJ8-8:Optimised and efficient high-definition codecsTask-T-PM1-PJ8-9:Dual SIM devices and eMBMS support
Business&Service WG Task-BS-PM1-PJ4-4: Hardware Reuse to Protect Investment Task-BS-PM1-PJ5-1:TD-LTE data RoamingTask-BS-PM1-PJ5-2:VoLTE Roaming Task-BS-PM1-PJ6-2: WTTx Business Practice Task-BS-PM1-PJ6-3: MEC UsecaseTask-BS-PM1-PJ6-4: Vertical Industries (Dedicated Networks) Task-BS-PM1-PJ8-10:eMBMS business scenarios and business models

Coordinators

Prakash Bhat     Vodafone

Guangyi Liu    China Mobile

Junjiang Peng    Ericsson

Objective

- Define 5G eMBB requirements/use case
- Validate system solution for eMBB through Lab tests & trials
- Define product requirement for support of key eMBB requirements
- Promote commercial deployment among GTI partners and with wider industry partners

Work scope

- Validate/Identify 5G eMBB deployment scenarios & use case with business models (e.g. traffic forecast, terminal penetration forecast, ARPU uplift etc.) partnering with industry vertical partners
- Validate technology solutions & system concepts for sub-6GHz and above 6GHz (mmWave) through end to end test environment Lab trials & field trials
- Develop recommendations on product architecture & hardware parameters based on Lab & field trials
- Promote large scale trials to enable commercial deployment of eMBB

Work plan

2020
2017
2018
2019
  • - Define 5G eMBB requirements/Use cases and start developing models to identify business opportunities
  • - Define products architecture and share results from PoC/prototypes for sub-6GHz
  • - Validate performance for above 6GHz
  • - Mature business case & modelling to enable prioritisation of use cases
  • - Enable end to end test for sub-6GHz in an multi-vendor environment
  • - Develop hardware PoC & product architecture for above 6GHz
  • - Share learnings from pre-commercial large scale trials for sub-6GHz
  • - Commercial deployment of sub-6HGz
  • - Enable end to end test for above-6GHz in an multi-vendor environment
  • - Commercial deployment of sub-6HGz
  • - Enable end to end test for above-6GHz in an multi-vendor environment

Leader

I-Kang Fu     Mediatek
Li Yan     Qualcomm

Objective

Develop GTI's vision and recommendations to drive global 5G sub-6GHz commercialization

Work Scope

Vision on business use case, recommendations to global spectrum allocation, network /device requirements and test spec. to support global 5G deployment at sub-6GHz.

Plan

2017

H1
* Deliver 5G sub-6GHz PoC trial spec.

H2
* Deliver white paper on
- network and terminal requirements for IODT at 2018
- GTI recommendation on sub-6GHz spectrum allocation
- Use cases, business models and operator planning/forecast

2018

H1
1)Update of network and terminal requirements
2)Demo of 5G sub-6GHz technology

H2
1)Deliver network and terminal test spec. for IOT at 2019
2)Demo of 5G sub-6GHz pre-commercial network and device prototype
3)Trial with interested operators

2019

H1
Demo of 5G sub-6GHz pre-commercial network and device.

H2
Demo of 5G sub-6GHz commercial network and device

Call for contributors. If you are interested, please contact GTI Secretariat [admin@gtigroup.org].

Leader

Tomohiko Furutani    SoftBank
Ma Shuai     CMCC

To be updated

Leader

Bin Cheng     ZTE

Objective

1. Identify the requirement needs for eMBB architecture to enable the 5G defined scenarios
2. Provide architecture recommendations (both sub and above 6GHz) and support the architecture evolution
3. Leverage the architecture advantage introduced through network slicing (focus on sub 6GHz) and facilitate experiences sharing within/across industries

Work Scope

1.Identify 5G eMBB use cases/Requirements based on defined scenarios
2.Develop recommendations on product architecture
3.Perform network slicing study
4.Promote knowledge sharing within/across industries

Plan

2017

H1
1)Identify 5G eMBB use cases/requirements based on defined scenarios
2)Develop recommendations on product architecture
3)Perform network slicing study

H2
1.Output technical reports on architecture and network slicing
2.Promote knowledge sharing within/across industries

Leader

Feng Xiang    Keysight
Dr.Ma Zhigang (Alfred Ma)    R&S

Objective

1. Define Basestaion & Device Test Requirment/Case.
2. Draft Basestation & Device Test Spec.
3. Coordinated development plan
4. Coordinated System Integration & Test Plan

Work Scope

1. BaseStation Test equipment include sub 6G, mm-wave RF & Performance Test
2. Device Test Platform include Conformance test & Performance & OTA Test

Plan

2017

H1
Define sub 6G Test requirement/Case & Draft Test Spec.
Define mm-wave Test requirement/Case & Draft Test Spec.
Define Conformance test requirement (RF Part)
Draft conformance test Spec.(RF Part)

H2
Test Equipment Development
Prototype ready & Trial test
Define Conformance test requirement (Signalling/RRF Part)
Draft conformance test Spec.(Signalling/RRF Part)

2018

H1
Prototype ready & System Integration
Real test with Basestation vendors
Device Test Platform Development
Prototype ready & System Integration

H2
Official product ready & System Integration
Real test with Basestation vendors
Prototype ready & System Integration
Trial test with device vendors

2019

H1
Official product ready & System Integration
Real test with Basestation vendors
Define Performance & OTA test requirement & development
Real test with device vendors

H2
Official product ready & System Integration
Official product ready & System Integration
Official product ready & System Integration
Official product ready & System Integration

PROJECT 1:SUB 6GHZ PROJECT 2:ABOVE 6GHZ PROJECT 3:NEW DEVICE PROJECT 4:ARCHITECTURE PROJECT 5:TEST EQUIPMENT
Spectrum WG Task-S-PM2-PJ1-1: 5G Spectrum and Coexistence Task-S-PM2-PJ2-1: 5G Spectrum and Coexistence
Network WG Task-N-PM2-PJ1-2:PoC and Trials & comercialisationTask-N-PM2-PJ1-3: Pre-commercial trialTask-N-PM2-PJ1-4: 5G Networking Strategy Task-N-PM2-PJ2-2: PoC, Trials & comercialisationTask-N-PM2-PJ2-3: 5G Networking Strategy Task-N-PM2-PJ4-1: Network Architecture studyTask-N-PM2-PJ4-2:Network Slicing Task-N-PM2-PJ5-1: Base station test equipment
Terminal WG Task-T-PM2-PJ1-5: PoC Device and TrialsTask-T-PM2-PJ1-6: Pre-commercial Device Product & TrialTask-T-PM2-PJ1-7: Components & Device Development Task-T-PM2-PJ2-4: PoC DeviceTask-T-PM2-PJ2-5: Components & Device Research Task-T-PM2-PJ3-1: Innovative Service and Applications for eMBB Spec Task-T-PM2-PJ5-2: Device test equipment
Business&Service WG Task-BS-PM2-PJ1-8: Use case & models Task-T-PM2-PJ2-6: Use case & models

Coordinators

Herkole Sava     Sprint

Kathleen Leach     Sprint

Shanpeng Xiao     China Mobile

Xinhui Wang     ZTE

Objective

Driving commercialization of cellular IOT technology

Work scope

1. Collaborative pilot and trial to verify technology capability and improve product maturity.
2. Industrialization of new technology covering wireless solution, network architecture, chipset and module, device certification, and open platform.
3. Investigation of C-IOT business model and cultivate new IOT service.

Work plan

2020
2017
2018
2019
  • Focus on pilot and trial, and building initial C-IOT eco-system
  • Support global large scale C-IOT deployment
  • C-IOT technology evolvement and global roaming
  • New technology based on IOT Business innovation 
  • New technology based on IOT Business innovation 

Leader

Li Qiuxiang      CMCC
Peng Guo      Qualcomm

To be updated

Leader

Ankit Muchhala      Sprint
Han Jing     CMCC
Wang Jing     ZTE

Objective

Evaluate and develop strategy on global deployments of TDD/FDD based IoT networks using wireless technology enhancements/tools

Work Scope

- Explore wireless technology solutions and its relevance to IoT use cases.
- Develop strategies for IoT network deployment lifecycle.
- Analyse the use of TDD mode for eMTC and NB-IoT and its required enhancements.
- Identify and analyse Technology enhancements pertaining to IoT Key requirements.
- Analyse location, voice and other services for its support on IoT networks.

Plan

2017

H1
Phase 1 of White paper by June 2017

H2
Whitepaper completion by Dec 2017

Leader

Zhang Lihong     Nokia
Li Aihua     CMCC

Objective

1. Promote GTI positions and recommendations on IoT core network architecture in 4G evolution and 5G system, Promote GTI operators requirements to SDOs(e.g. 3GPP) for identified use cases.
2. Bring the industry together and build a common consensus on IoT core network architecture, and synergy of product implementation
3. Investigate IoT new business model with leveraging new functionalities involved in the core network architecture (e.g. IoT capability exposure)

Work Scope

Scope include functional entities, reference points, Site distribution, networking model and etc.

Plan

2017

H1
Anaylsis on LTE CIoT network architecture and deployment scenarios

H2
Complete the the analysis report of LTE CIoT network architecture status and prospect, with conclued future trends on core network architecture

2018

H1
study report of 5G CIoT core network architecture and deployment strategy

H2
study report of NFV based core network architecture solutions and deployment

2019

H1
high-level architecture framework in the recommendation.

H2
typical signaling procedures in the recommendation.

2020

H1
5G CIoT deployment scenarios ( e.g. pure 5G or hybrid with LTE+5G)

H2
Complete the guideline of 5G CIoT core network architecture.

Leader

Mike Witherell     Sprint
Song Luchuan     Huawei
Peng Guo     Qualcomm
Weng Weiwen     CMCC

To be updated

Leader

Kong Luting     CMCC
Qi Fei    Keysight
Xie Feng     R&S

Objective

Based on industry requirements, establish test and certification system for C-IoT device with high-efficiency and low-cost

Work Scope

1. Low-cost and fast IoT device qualification and certification solution
2. Test platform for IoT
3. GTI certified IOT chipset/module/terminal
4. Vertical IoT device certification in the open lab, which is native support celluar IoT connectivity

Plan

2017

H1
1. Research on the test and certification solution for C-IoT chipset, module and teminal
2. Module Tests: The first release of C-IoT module test specification
3. Chipset Tests: The development of C-IoT conformance test platfom

H2
1.Module Tests: The development of C-IoT module test platform
2.Module Tests: The first certified C-IoT module
3.Terminal Tests: Research on the OTA test solution for C-IoT terminals

2018

H1
1.Module Tests: The second release of module test specification
2. Terminal Tests: The development of OTA perfomance test system for C-IoT terminals

H2
1. Research on the test and certification solution for C-IoT enhancement
2.Module Tests: The updates of C-IoT module test platform
3.Module Tests: Large scale certification of C-IoT modules

2019

H1
1. Module Tests: The first release of test specificaton for C-IoT enhancement
2. Chipset Tests: The development of confonmance test system for C-IoT enhancement

H2
1. Module Tests: The development of module test platform for C-IoT enhancement

Leader

Xiangkai Guan     Qualcomm
Zheng Fang     Sprint
Song Luchuan     Huawei
Yue Zuhui      CMCC

Objective

To promote unified eSIM solutions for both M2M/IoT cases and consumer devices cases operated by celluar carriers and third party service providers

Work Scope

1. Formulate study report or white paper on
. Further investigation on some use cases or scenarios to raise requirement to GSMA to improve eSIM ecosystem
. align with GTI group 7 on more eSIM platform and related areas
2. Multiple UICC and multiple profiles user cases demo/trial

Plan

2017

H1
. PJ6-6 T6% (Biz Impact)
. PJ6-1 T1% (AA)
. PJ6-2 T2% (RLCM)
. PJ6-3 T3% (Phase)
. PJ6-4 T4% (IBED)
. PJ6-5 T5% (Cert)

H2
. PJ6-6 T6% (Biz Impact)
. PJ6-1 T1% (AA)
. PJ6-2 T2% (RLCM)
. PJ6-3 T3% (Phase)
. PJ6-4 T4% (IBED)
. PJ6-5 T5% (Cert)

2018

H1
. PJ6-6 T6% (Biz Impact)
. PJ6-1 T1% (AA)
. PJ6-2 T2% (RLCM)
. PJ6-3 T3% (Phase)
. PJ6-4 T4% (IBED)
. PJ6-5 T5% (Cert)

Leader

Qiu Hong      Qualcomm
Zheng Fang      Sprint
Liu Kun     CMCC

Objective

To promote unified solutions of common service layer/functions for kinds of M2M appliations operated by celluar carriers and third party service providers

Work Scope

1. Formulate study report and white paper on
. Common services required by M2M applications. (device management, device provisioning, charging, data storage,geo-location, big data processing)
. Technology solutions for common services.
2. Solutions/APIs Promotion

Plan

2017

H1
. PJ7-4 80% (Biz Model)
. PJ7-2 50% (IoT Arch)
. PJ7-3 20% (Dev. SL)
. PJ7-5 20% (Platform SL)
. PJ7-6 50% (Implement P1)

H2
. PJ7-4 100%
. PJ7-2 100% (IoT Arch)
. PJ7-3 50% (Dev. SL)
. PJ7-5 50% (Platform SL)
. PJ7-6 100% (Implement P1)

2018

H1
. PJ7-2 TBD (TBD, maybe enhanced_IoT Arch)
. PJ7-3 100% (Dev. SL)
. PJ7-5 100% (Platform SL)
. PJ7-6 TBD (TBD, maybe Implement future phase)

H2
TBD

2019

H1
TBD

H2
TBD

2020

H1
TBD

H2
TBD

Leader

Wang Jing      ZTE
Kathleen Leach      Sprint
Wang Hongmei     CMCC

To be updated

Leader

Li Xiaoru      CMCC
Rennai Xie      ZXIC

Objective

Sharing best security practices and making recommendations for end-to-end IoT system.

Work Scope

1. IoT network security.
2. IoT terminal security.
3. Public education and promotion activities for IoT seucity.
4. IoT security accreditation plan.

Plan

2017

H1
1. Starting Task P9N2 (IoT network security - evaluation of de facto solutions)
2. Starting Task P9T1 (IoT device security - recommendations and best practices)
3. Starting Task P9T2 (IoT device security - test criteria/cases)

H2
Task P9N2: delivering a whitepaper for IoT network security.
Task P9T1: delivering an investigation report for IoT device secuity.
Task P9T2: production of IoT devices with security protection solutions.

2018

H1
Task P9N2: TBD
Task P9T1: delivering an evaluation report for IoT device security solutions.
Task P9T2: TBD

H2
Task P9N2: TBD
Task P9T1: delivering a whitepaper for IoT device security.
Task P9T2: TBD

2019

H1
TBD

H2
TBD

2020

H1
Starting Task P9B1(IoT security - public education and promotion activities).
Starting Task P9B2 (IoT security accreditation plan).

H2
Task P9B1: Completion .
Task P9B2: Completion .

PROJECT 1:PILOT AND TRIAL PROJECT 2:WIRELESS SOLUTION PROJECT 3:NETWORK ARCHITECTURE PROJECT 4:CHIPSET AND MODULE PROJECT 5:DEVICE CERTIFICATION Porject 6:eSIM PROJECT 7:OPEN PLATFORM PROJECT 8:MARKET & BUSINESS PROJECT 9:CELLULAR BASED IOT MARKET, APPLICATION SENARIO AND USE CASE
Spectrum WG Task-S-PM3-PJ2-1: Global spectrum on IOT
Network WG Task-N-PM3-PJ1-1: Global IOT pilot or trial projects analysisTask-N-PM3-PJ1-2: Network capability and performance evaluation for pre-commercial product and indusTask-N-PM3-PJ1-3: Test tools for network deployment Task-N-PM3-PJ2-2: Deployment StrategyTask-N-PM3-PJ2-3: Network planning and optimizationTask-N-PM3-PJ2-4: IOT Small Cell Task-N-PM3-PJ2-5: TDD EmtcTask-N-PM3-PJ2-6: TDD NB-IOTTask-N-PM3-PJ2-7: R14 eveolementTask-N-PM3-PJ2-8: IOT Location Solution Task-N-PM3-PJ3-1: Deployment strategyTask-N-PM3-PJ3-2: NFV based core network architecture analysisTask-N-PM3-PJ3-3: SCEF solution investigation Task-N-PM3-PJ6-1: Authorization and authentication of IoT users and serviceTask-N-PM3-PJ6-2: Remote and Local credential management Task-T-PM3-PJ8-1: Service layer for M2M application Task-N-PM3-PJ9-1: IoT cloud and big data security - recommendations and best practicesTask-N-PM3-PJ9-2: IoT network security - evaluation of de facto solutionsTask-N-PM3-PJ9-3: IoT network security - intelligence sharing and incident handling
Terminal WG Task-T-PM3-PJ1-4: Chipset/module/device capability and performance evaluation for pre-commercial pro Task-T-PM3-PJ4-1: Chipset requirement analysis and definition on modes, bands, key features and so Task-T-PM3-PJ4-2: Chipset architecture investigation and industry facilitation including Modem and STask-T-PM3-PJ4-3: Universal Module requirement analysis, definition and industry facilitation (HardwTask-T-PM3-PJ4-4: OS and SDK requirement analysis on chipset, module and IoT deviceTask-T-PM3-PJ4-5: E2E optimized solution on low power consumptionTask-T-PM3-PJ4-6: eSIM based implementation solution on chipset, module and IoT device Task-T-PM3-PJ5-1: Low-cost and fast IoT device qulaifiacation and certification solutionTask-T-PM3-PJ5-2: Test platform for IoTTask-T-PM3-PJ5-3: GTI certified IOT chipset/module/terminalTask-T-PM3-PJ5-4: Vertical IoT device certification in the open lab, which is native support celluar Task-T-PM3-PJ6-3: Phased SIM solution in deviceTask-T-PM3-PJ6-4: Interface between eUICC and deviceTask-T-PM3-PJ6-5: Certification of eUICC and Device Task-N-PM3-PJ7-1:Architecture and Protocols of IoT Syestem Service LayerTask-N-PM3-PJ7-2:IoT Platform SL Task-T-PM3-PJ9-4: IoT device security - recommendations and best practicesTask-T-PM3-PJ9-5: IoT device security - test criteria/cases
Business&Service WG Task-BS-PM3-PJ1-5: E2E IoT services innovation and verification in field trial and IoT open lab proj Task-BS-PM3-PJ4-7: Global IoT module scaling strategy Task-BS-PM3-PJ6-6: Business impacts with eSIM provisioning / reprovisioning Task-T-PM3-PJ7-3:IoT Device SLTask-B-PM3-PJ7-4:Device API and Server layer API implement InstanceTask-B-PM3-PJ7-5:Open platform related biz model analysis for the telecom operators Task-BS-PM3-PJ8-2: Global and territorial IOT serviceTask-BS-PM3-PJ8-3: IOT business model establishmentTask-BS-PM3-PJ8-4: New IOT service and application exploringTask-BS-PM3-PJ8-5: Competition and cooperation analysis between telcom operator, chip supplier and cloud service provider.Task-BS-PM3-PJ8-6: Cellular based IoT market analysis, IoT application senario catergrory, typical use case analysis and communication requirement analysis Task-BS-PM3-PJ9-6: IoT security - public education and promotion activitiesTask-BS-PM3-PJ9-7: IoT security accreditation plan

Coordinators

Prakash Bhat      Vodafone

Guang Yang      China Mobile

Dayong Zhang      Nokia

Yan Li     Qualcomm

Objective

Cooperation with other international organizations, like 5GAA, and automotive industry to better promote the development of V2X.

Work scope

Work plan

2020
2017
2018
2019

Coordinators

Tomohiko Furutani      SoftBank

Sen Wang      CloudMinds

Xi Chen      Huawei

Objective

Promote the development of Cloud Robotics, by defining the Cloud Robot as a combined product of network, platform, and hardware.

Work scope

Build a cross-industry ecosystem, research and demonstration, Marketing

Work plan

2020
2017
2018
2019
  • Start hearing and discussion with technical partners, set up prototype environment
  • Whitepaper, prototype (LTE or WiFi) demonstration
  • Discuss 5G integration, revise Whitepaper
  • Demonstration with 5G Pre-commercial system
  • Demonstration with 5G Pre-commercial system

Leader

Objective

Identify and share key concepts, technologies and future of Cloud robotics, in the era of 5G mobile communication systems

Work Scope

Cover following topics in chapters
Market trends of communication robots and smart devices
Technologies behind cloud robots
Voice recognition, image recognition, and sensors
AI and machine learning & Cloud
Cloud Robotic Network Architecture (Network WG feedback prefarable)
5G mobile communication system and cloud robot (Network WG feedback prefarable)
Robot as a mobile network terminal (Terminal WG feedback preferable)
Applications for cloud robots
Business models of cloud robots for network operators

Plan

2017

H1
Time to publish:
Late Jun in MWC Shanghai, GTI summit & workshop, 28 June – 1 July 201

Leader

Objective

Demonstrate prototype Cloud Robot device, within test network environment

Work Scope

Select/Build prototype device
Setup prototype network environment (4G/4.5G , more focus on building the Cloud platform part)
Test network low latency(<30ms) by leveraging Mobile Edge Computing technology

Plan

2017

H1
Discuss in parallel with the whitepaper

H2
Targeted to demonstrate in 2017H2/2018 H1

2018

H1
Targeted to demonstrate in 2017H2/2018 H1

Leader

Objective

Enhance the prototype environment by integrating 5G features

Work Scope

This project needs consideration on 5G spectrum allocation (Spectrum WG feedback preferable)
Network architecture enhancement with 5G, possible introduction of edge computing (Network WG feedback prefarable)
Robot controller with 5G capability (Terminal WG feedback preferable)
Coordinate partner robot makers and Operators

Leader

Objective

Carry out Cloud Robot demonstration in Pre-commercial 5G environment

Work Scope

Build Pre-5G demonstration network
Prepare 5G capable demonstration robots
Promote, possible partnership with robot makers

PROJECT 1:WHITEPAPER PROJECT 2:PROTOTYPE DEMO PROJECT 3:5G INTEGRATION PROJECT 4:PRE-5G DEMO
Spectrum WG Task-S-PM5-PJ1-1: Overview the spectrum allocation for M2M / robots in regions, possibly discuss GSM guardband reuse suggested by PS Tang Task-S-PM5-PJ3-1: Discuss spectrum allocation or network slicing, to secure reliability
Terminal WG Task-N-PM5-PJ1-2: Current LTE/LTE-Adv and expected advancements in 5G, in terms of network architecture and methods to mitigate latency Task-N-PM5-PJ2-1: prototype network environment Task-N-PM5-PJ3-2: Network architecture and computing resources, what's possible with 5G Task-N-PM5-PJ4-1: Demonstration network, possible in CMCC or SB demo network
Network WG Task-T-PM5-PJ1-3: Robot as a celluar network terminal, existing cases and future forecast Task-T-PM5-PJ2-2: Prototype device selection Task-T-PM5-PJ3-3: Robot controller with 5G capability, Under 6GHz, maybe 4.5GHz? Task-T-PM5-PJ4-2: Demonstration equipment
Business&Service WG Task-B-PM5-PJ1-4: Possible use cases, customers, and business models Task-B-PM5-PJ3-4: Coordinate partner robot makers and Operators Task-B-PM5-PJ4-3: Promotion, partnership, possibly part of GTI WS?
Meeting name
  • ALL
  • 18th GTI Workshop
  • 17th GTI Workshop
  • 16th GTI Workshop
  • 15th GTI Workshop
  • 14th GTI Workshop
  • 13th GTI Workshop
  • 12th GTI Workshop
  • 11th GTI Workshop
  • 10th GTI Workshop
  • 9th GTI Workshop
  • 8th GTI Workshop
  • 7th GTI Workshop
  • 6th GTI Workshop
  • 5th GTI Workshop
  • 4th GTI Workshop
  • 3rd GTI Workshop
  • 2nd GTI Workshop
  • 1st GTI Workshop
  • Other
Working Group
  • ALL
  • Network
  • Terminal
  • Business&Service
  • 3.5GHz Interest Group
  • Spectrum Group
  • Other
Task Force
  • ALL
Type
  • ALL
  • Official Doc
  • Working Doc
  • Other
Sub Type
  • ALL
Uploaded( et ) Meeting Name Doc Type Group Task Force Title Author
( Affiliation )
Actions

24th / Feb / 2017
17 :15 :53

18th GTI Workshop

Working Doc

Other

other

GTI-18th-WS-PL-02-Program 1 - 4G and Evolution

GTI

Download

24th / Feb / 2017
15 :54 :37

18th GTI Workshop

Working Doc

Other

other

GTI-18th-WS-PL-01--Openning Notes-v0220

GTI

Download

24th / Feb / 2017
15 :52 :39

18th GT Workshop

Working Doc

Terminal

IOT and Terminal Testing

GTI-18th-WS-Terminal-11-Cloud Robot Program Task-T-PM5-PJ1-3 Rev.4

SoftBank

Download

24th / Feb / 2017
15 :51 :39

18th GTI Workshop

Working Doc

Terminal

IOT and Terminal Testing

GTI-18th-WS-Terminal-10-Quectel_LPWA_Module(1) (Task-T-PM3-PJ4-3)

Quectel

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24th / Feb / 2017
15 :48 :10

18th GTI Workshop

Working Doc

Terminal

IOT and Terminal Testing

GTI-18th-WS-Terminal-09-18th GTI -Module-Standardization and Certification

CMCC

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24th / Feb / 2017
15 :45 :12

18th GTI Workshop

Working Doc

Terminal

IOT and Terminal Testing

GTI-18th-WS-Terminal-08-Task-T-PM3-PJ4-1&2 NB-IoT MWC Mediatek

MTK

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24th / Feb / 2017
15 :44 :11

18th GTI Workshop

Working Doc

Terminal

IOT and Terminal Testing

GTI-18th-WS-Terminal-07-Qorvo 18th GTI Workshop Cooper Slides Final (Task-T-PM2-PJ1-7&Task-T-PM3-PJ4

Qorvo

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