Metodología para identificar los equipos esenciales para la evaluación del impacto ambiental y de la generación de residuos electrónicos de las arquitecturas de red |
Aunque existe un marco para evaluar el impacto ambiental del sector de las TIC (que la UIT desarrolló, por ejemplo, en la Recomendación UIT-T L.1410 sobre la evaluación de los efectos medioambientales del ciclo de vida de los bienes, redes y servicios de tecnologías de la información y la comunicación), no se dispone de prácticas idóneas de identificación de equipos específicamente diseñadas para evaluar el impacto ambiental de la arquitectura de redes. En esta Recomendación se identifican los principales equipos de redes con el objeto de facilitar los cálculos de la evaluación del ciclo de vida (ACV). Los distintos tipos de arquitectura de red emplean diferentes productos que conllevan diferencias en cuanto al uso de energía, la generación de residuos electrónicos y la huella medioambiental. En esta Recomendación se examinarán tres tipos de arquitecturas de red y se propondrá un conjunto adecuado de equipos que deberán tenerse en cuenta para cada una de ellas. La Recomendación aportará una ayuda inicial a los diseñadores de redes para determinar el rendimiento medioambiental y circular de las diferentes arquitecturas de red. La Recomendación UIT-T L.1050 utiliza información recopilada de las partes interesadas con el fin de proporcionar una perspectiva valiosa de las posibles dificultades especificadas. |
|
Citation: |
https://handle.itu.int/11.1002/1000/14716 |
Series title: |
L series: Environment and ICTs, climate change, e-waste, energy efficiency; construction, installation and protection of cables and other elements of outside plant L.1000-L.1199: E-waste and circular economy |
Approval date: |
2022-01-13 |
Provisional name: | L.methodology_arch |
Approval process: | AAP |
Status: |
In force |
Maintenance responsibility: |
ITU-T Study Group 5 |
Further details: |
Patent statement(s)
Development history
|
|
|
Ed. |
ITU-T Recommendation |
Status |
Summary |
Table of Contents |
Download |
1
|
L.1050 (01/2022)
|
In force
|
here
|
here
|
here
|
|
ITU-T Supplement
|
Title
|
Status
|
Summary
|
Table of contents
|
Download
|
L Suppl. 4 (04/2016)
|
Guidelines for developing a sustainable e-waste management system
|
In force
|
here
|
here
|
here
|
L Suppl. 5 (12/2014)
|
Life-cycle management of ICT goods
|
In force
|
here
|
here
|
here
|
L Suppl. 20 (10/2015)
|
Green public ICT procurement
|
In force
|
here
|
here
|
here
|
L Suppl. 21 (04/2016)
|
Implementation guidance for small- and medium-sized enterprises on information and communication technology supply chain due diligence concerning conflict minerals
|
In force
|
here
|
here
|
here
|
L Suppl. 27 (10/2016)
|
Supplement on success stories on e-waste management
|
In force
|
here
|
here
|
here
|
L Suppl. 28 (10/2016)
|
Circular economy in information and communication technology; definition of approaches, concepts and metrics
|
In force
|
here
|
here
|
here
|
L Suppl. 32 (10/2016)
|
Supplement for eco-specifications and rating criteria for mobile phones eco-rating programmes
|
In force
|
here
|
here
|
here
|
L Suppl. 33 (10/2016)
|
Assessment of energy consumption of information and communication technology services
|
In force
|
here
|
here
|
here
|
L Suppl. 41 (05/2021)
|
Requirements on energy efficiency measurement models and the role of artificial intelligence and big data
|
In force
|
here
|
here
|
here
|
L Suppl. 42 (05/2021)
|
Guidelines on the environmental efficiency of machine learning processes in supply chain management
|
In force
|
here
|
here
|
here
|
L Suppl. 43 (05/2021)
|
Smart energy saving of 5G base stations: Traffic forecasting and strategy optimization of 5G wireless network energy consumption based on artificial intelligence and other emerging technologies
|
In force
|
here
|
here
|
here
|
L Suppl. 46 (12/2021)
|
Definitions and recent trends in circular cities
|
In force
|
here
|
here
|
here
|
L Suppl. 47 (07/2022)
|
Examples of resource saving within the information and communication technology sector
|
In force
|
here
|
here
|
here
|
L Suppl. 49 (07/2022)
|
Overview on adaptation to climate change for information and communication technology networks
|
In force
|
here
|
here
|
here
|
L Suppl. 52 (10/2022)
|
Computer processing, data management and energy perspective
|
In force
|
here
|
here
|
here
|
L Suppl. 53 (10/2022)
|
Guidelines on the implementation of environmental efficiency criteria for artificial intelligence and other emerging technologies
|
In force
|
here
|
here
|
here
|
L Suppl. 54 (10/2022)
|
Guidance for assessing the greenhouse gas emissions consequences of the financial effects generated by information and communication technology
|
In force
|
here
|
here
|
here
|
L Suppl. 55 (10/2022)
|
Environmental efficiency and impacts on United Nations Sustainable Development Goals of data centres and cloud computing
|
In force
|
here
|
here
|
here
|
L Suppl. 56 (10/2022)
|
Guidelines for connecting cities and communities with the Sustainable Development Goals
|
In force
|
here
|
here
|
here
|
Title |
Approved on |
Download |
Partnering for solutions: ICTs in Smart Water Management
|
2014
|
here
|
Resilient pathways: the adaptation of the ICT sector to climate change
|
2014
|
here
|
Greening ICT Supply Chains – Survey on Conflict Minerals Due Diligence Initiatives
|
2012
|
here
|
Review of Mobile Handset Eco-Rating Schemes
|
2012
|
here
|
Boosting Energy Efficiency through Smart Grids
|
2012
|
here
|
|