IoT-based Smart Energy Management System for Smart Green City: Difference between revisions
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{{ActionCluster | {{ActionCluster | ||
|image=Suwon.jpeg | |||
| | |team=Korea Institute of Civil Engineering and Building Technology, Suwon Research Institute | ||
| team | |leader=Suwon Song | ||
|imagecaption=IoT-based Smart Energy Management in Suwon | |||
| leader | |municipalities=Suwon Korea | ||
|description=The purpose of this research is to develop the convergence technologies of IoT-based smart energy management system that can minimize building energy use and utility bills. To accomplish the goal, The research objectives are proposed in the followings: | |||
| imagecaption | |||
| municipalities | |||
| description | |||
The purpose of this research is to develop the convergence technologies of IoT-based smart energy management system that can minimize building energy use and utility bills. To accomplish the goal, The research objectives are proposed in the followings: | |||
* Development of IoT-based optimal control and performance evaluation technology based on big data analysis, | * Development of IoT-based optimal control and performance evaluation technology based on big data analysis, | ||
* Development of IoT- based smart energy management platform, IoT devices, and application technology | * Development of IoT- based smart energy management platform, IoT devices, and application technology | ||
* Development of 3D object-oriented information modeling and data visualization based on Geographic information system(GIS) | * Development of 3D object-oriented information modeling and data visualization based on Geographic information system(GIS) | ||
* Establishment of test-beds with an integrated smart energy management system | * Establishment of test-beds with an integrated smart energy management system | ||
|challenges=* Interoperable data communication protocol among various IoT devices and existing monitoring and control devices | |||
| challenges | |||
* Interoperable data communication protocol among various IoT devices and existing monitoring and control devices | |||
* Establishment of test-beds with an integrated smart energy management system for technologies demonstration and commercialization | * Establishment of test-beds with an integrated smart energy management system for technologies demonstration and commercialization | ||
* Development of global standard and business models to world business markets | * Development of global standard and business models to world business markets | ||
|solutions=TBD | |||
| solutions | |requirements=# Scope and requirement definition | ||
| requirements | |||
# Scope and requirement definition | |||
# Test and QC plan establishment | # Test and QC plan establishment | ||
# Project management plan | # Project management plan | ||
Line 39: | Line 21: | ||
# Test-beds & Validation | # Test-beds & Validation | ||
# Solution Explore | # Solution Explore | ||
# Technology commercialization/ standardization | # Technology commercialization/ standardization | ||
|kpi=* Energy reduction by 20% | |||
| kpi | |||
* Energy reduction by 20% | |||
* CO2 reduction by 30% | * CO2 reduction by 30% | ||
* Energy demand and utility cost reduction by 10% | * Energy demand and utility cost reduction by 10% | ||
|measurement=Real time measurement and verification of building energy performance and energy demand based on the international performance measurement and verification protocol (IPMVP) | |||
|standards=* Development of an open energy management platform including Open Application Programming Interface (OpenAPI), data communication bus, etc. | |||
| measurement | |||
Real time measurement and verification of building energy performance and energy demand based on the international performance measurement and verification protocol (IPMVP) | |||
| standards | |||
* Development of an open energy management platform including Open Application Programming Interface (OpenAPI), data communication bus, etc. | |||
* International research collaboration for developing the open platform capable of replicability, scalability, and sustainability extended to global business model and application | * International research collaboration for developing the open platform capable of replicability, scalability, and sustainability extended to global business model and application | ||
|cybersecurity=TBD | |||
|impacts=* Energy and utility bills savings using optimal energy and demand controls | |||
| cybersecurity | |||
| impacts | |||
* Energy and utility bills savings using optimal energy and demand controls | |||
* CO2 reduction in response to climate change | * CO2 reduction in response to climate change | ||
* Value-driven business opportunities related to smart homes, smart buildings, and smart cities | * Value-driven business opportunities related to smart homes, smart buildings, and smart cities | ||
* Job creation based on IoT-based convergence technologies | * Job creation based on IoT-based convergence technologies | ||
|demonstration=* Phase I Pilot/Demonstration June 2016: | |||
| demonstration | |||
* Phase I Pilot/Demonstration June 2016: | |||
# Project concept and strategy for IoT based smart energy management system | # Project concept and strategy for IoT based smart energy management system | ||
# Demonstration of KICT test-bed for a pilot project | # Demonstration of KICT test-bed for a pilot project | ||
Line 76: | Line 41: | ||
# Test-bed development and application study | # Test-bed development and application study | ||
# GIS based 3D smart energy management system for a city level | # GIS based 3D smart energy management system for a city level | ||
|supercluster=Utility | |||
|year=2016, 2017 | |||
| supercluster | |title=IoT-based Smart Energy Management System for Smart Green City | ||
| year | |email=swsong@kict.re.kr | ||
}} | }} | ||
[[Category:Year_2016]] | [[Category:Year_2016]] |
Revision as of 05:03, April 28, 2022
IoT-based Smart Energy Management System for Smart Green City | |
---|---|
IoT-based Smart Energy Management in Suwon | |
Team Organizations | Korea Institute of Civil Engineering and Building Technology Suwon Research Institute |
Team Leaders | Suwon Song |
Participating Municipalities | Suwon Korea |
Status | {{{status}}}"{{{status}}}" is not in the list (Launched, Implemented, Development, Ready for Public Announcement, In Deliberations, Negotiations, Concept only Stage, Master Planning) of allowed values for the "Status" property. |
Document | None |
Description
The purpose of this research is to develop the convergence technologies of IoT-based smart energy management system that can minimize building energy use and utility bills. To accomplish the goal, The research objectives are proposed in the followings:
- Development of IoT-based optimal control and performance evaluation technology based on big data analysis,
- Development of IoT- based smart energy management platform, IoT devices, and application technology
- Development of 3D object-oriented information modeling and data visualization based on Geographic information system(GIS)
- Establishment of test-beds with an integrated smart energy management system
Challenges
- Interoperable data communication protocol among various IoT devices and existing monitoring and control devices
- Establishment of test-beds with an integrated smart energy management system for technologies demonstration and commercialization
- Development of global standard and business models to world business markets
Solutions
TBD
Major Requirements
- Scope and requirement definition
- Test and QC plan establishment
- Project management plan
- Smart Energy building architecture design
- Technologies development
- Test-beds & Validation
- Solution Explore
- Technology commercialization/ standardization
Performance Targets
Key Performance Indicators (KPIs) | Measurement Methods |
---|---|
|
Real time measurement and verification of building energy performance and energy demand based on the international performance measurement and verification protocol (IPMVP) |
Standards, Replicability, Scalability, and Sustainability
- Development of an open energy management platform including Open Application Programming Interface (OpenAPI), data communication bus, etc.
- International research collaboration for developing the open platform capable of replicability, scalability, and sustainability extended to global business model and application
Cybersecurity and Privacy
TBD
Impacts
- Energy and utility bills savings using optimal energy and demand controls
- CO2 reduction in response to climate change
- Value-driven business opportunities related to smart homes, smart buildings, and smart cities
- Job creation based on IoT-based convergence technologies
Demonstration/Deployment
- Phase I Pilot/Demonstration June 2016:
- Project concept and strategy for IoT based smart energy management system
- Demonstration of KICT test-bed for a pilot project
- Project plan with KPI and timeline
- Phase II Deployment June 2017:
- Test-bed development and application study
- GIS based 3D smart energy management system for a city level