Operational energy Efficiency for Users (OEU); Referential specification to define sustainable levels of Fixed Broadband access networks
This document defines sustainable levels of operational fixed Broadband access networks
This document defines sustainable levels of operational fixed Broadband access networks
Points to "Cyberphysical systems: the usage of robots and advanced T-capabilities (sensors, data analytics) in a production environment" as Related Standardization Initiatives of relevance to the area
Contains Gap analysis in the context of Smart Manufacturing with respect to Standards Gaps. Proposes some recommendations to overcome potential gaps. Particular attention will be paid on horizontal application layer standardization and to assure an interworking framework among different vertical industrial segments
Gives perspectives on wireless network of data acquisition terminals, robotic type equipment or automated guided vehicles, and Robotic arms
The document provides an overview of ETSI activities linked to StandardizationNeeds in the area of "Robotics and Autonomous Systems" (RAS), referred to as a “multidisciplinary scientific and technological domain for implementing complex systems with cognitive capabilities” (see the EU ICT Standardization Rolling Plan)
Presents a study of use cases and vertical scenarios for Ultra-Reliable Low-Latency Communications (URLLC) intended to be used as base requirements for evolving DECT. Applications / Use Cases include Home and Building Automation, including Smart Living; Industry automation - Factories of the Future, Industry 4.0; Mobile robots
The present document addresses the opportunities and challenges offered by the use of lamp-posts to provide facilities supporting services required by sustainable digital multiservice cities and communities.
Defining the Global KPIs for HFC Access networks and describing how the Global KPIs are to be applied.
Many companies are running studies on estimating energy performance of future radio access networks (RAN) deployment. In this work item we want to find methods and best practice to assess energy performance (Energy Consumption, Energy Efficiency) of a future RAN deployment . The work will start with collecting important preconditions as traffic aspects (growth, new traffic classes, potential disruption), collection of energy efficiency/saving solutions and strategies and energy issues in current networks. Network energy performance will be assessed based on set of scenarios including different solutions. The time period is 2020, optionally beyond and 5G impact. Energy consumption and efficiency definitions from ES 202706 and ES 203228 are preferred.
Establish a new energy efficiency measurement methods and metrics to support NFV scenarios, such as IMS and EPC, to define measurement methods for: 1) VNF, 2)Server, 3) NFVI(NFV Infrastrucutre) including HW and hypervisor. A similar work item will be also proposed in ITU-T SG5 for having common deliverables. NOTE: the work will look on Network Function Virtualization(NFV) transformation that will dramatically change telecom network architecture with decoupled software and hardware. Actual available Energy efficient measurement methods of traditional all-in-one telecom equipments will be not directly suitable for NFV components (e.g. Virtualized Network Functions (VNF), hypervisor hardware, Management and Orchestration) from different vendors.
Enhancing the energy efficiency measurement method for RBS