1 option
Smart Cities and Green ICT Systems (SMARTGREENS), 2015 International Conference on / Institute of Electrical and Electronics Engineers.
- Format:
- Book
- Author/Creator:
- Institute of Electrical and Electronics Engineers, author, issuing body.
- Language:
- English
- Subjects (All):
- Green technology.
- Physical Description:
- 1 online resource
- Other Title:
- 2015 International Conference on Smart Cities and Green ICT Systems
- 2015 International Conference on Smart Cities and Green ICT Systems (SMARTGREENS)
- Smart Cities and Green ICT Systems
- Place of Publication:
- Piscataway : IEEE, 2015.
- Summary:
- The purpose of the 4th International Conference on Smart Cities and Green ICT Systems (SMARTGREENS) is to bring together researchers, designers, developers and practitioners interested in the advances and applications in the field of Smart Cities, Green Information and Communication Technologies, Sustainability, Energy Aware Systems and Technologies.
- Contents:
- Smart city technologies and architectures: A literature review,"C.
- In the heart of intelligent buildings: Occupants practices facing automation,"A.
- Renewable energy-aware data centre operations for smart cities the DC4Cities approach,"S.
- Guideline for crowd evacuation simulation validation of a pedestrian simulator with RiMEA test scenarios,"Y.
- Faster, cheaper, cleaner: Assessing urban mobility,"G.
- A data model for energy decision support systems for smart cities: The case of BESOS common information model,"G.
- Social acceptance and its role for planning technology infrastructure: A position paper, taking wind power plants as an example,"B.
- Electricity and heat sector coupling for domestic energy systems: Benefits of integrated energy system modelling,"A.
- Methodology for energy efficiency assessment in the transport sector for smart cities,"R.
- Definition of Key Performance Indicators for energy efficient assessment in the transport sector,"R.
- Parameters affecting the energy performance of the transport sector in smart cities,"R.
- Energy book for buildings: Occupants incorporation in energy efficiency of buildings,"N.
- A probabilistic approach to parking: Benefits of routing instead of spotting,"G.
- Towards a sustainable smart cities integration in teaching and research,"D.
- Multi-resource optimized smart management of urban energy infrastructures for improving smart city energy efficiency,"M.
- Energy-aware systems and technologies,"2015
- Optimization of coil parameters for a nonlinear two Degree-of-Freedom (2DOF) velocity-amplified electromagnetic vibrational energy harvester,"E.
- Bottom-up analysis of the solar photovoltaic potential for a city in the Netherlands: A working model for calculating the potential using high resolution LiDAR data,"B.
- Central model predictive control of a group of domestic heat pumps case study for a small district,"R.
- DeLi2P: A user centric, scalable demand side management strategy for smart grids,"S.
- Comfort-constrained demand flexibility management for building aggregations using a decentralized approach,"L.
- Voltage control with local decisions in low voltage distribution grids with DER penetration,"A.
- Seasonally aware routing for thermoelectric energy harvesting wireless sensor networks,"A.
- A sensitivity study of PMU-based fault detection on smart grid,"R.
- Modeling of nonlinear dynamics of active components in intelligent electric power systems,"K.
- An empirical study of real-time feedback and dynamic pricing effects on electric power consumption: Field Experiment on a remote Island in Japan,"K.
- High frequency non-intrusive electric device detection and diagnosis,"R.
- Price based unit commitment with wind generation and market clearing price variations,"V.
- Power capping of CPU-GPU heterogeneous systems using power and performance models,"K.
- Fine-tuning genetic algorithm for photovoltaic-proton exchange membrane fuel cell hybrid system optimization,"M.
- Analyzing multi-microgrid with stochastic uncertainties including optimal PV allocation,"H.
- Micro grid architecture for line fault detection and isolation,"M.
- Enhanced LZMA and BZIP2 for improved energy data compression,"Z.
- Combined visual comfort and energy efficiency through true personalization of automated lighting control,"C.
- Overview of socio-economic issues for smart grids development,"S.
- Test of new control strategies for room temperature control systems fully controllable surroundings for a heating system with radiators,"N.
- A new approach to power consumption reduction of street lighting,"A.
- multiFLEX: Flexible multi-utility, multi-service smart metering architecture for energy vectors with active prosumers,"E.
- Secondary control in AC microgrids challenges and solutions,"O.
- Citizens collaboration to minimize power costs in smart grids: A game theoretic approach,"T.
- Commercial buildings energy performance within context occupants in spotlight,"S.
- Sustainable computing and communications,"2015
- Agent-based transportation: Demand management demand effects of reserved parking space and priority lanes in comparison and combination,"M.
- Using flexibility information for energy demand optimization in the low voltage grid,"S.
- A context-free smart grid model using pretopologic structure,"G.
- Power theft detection in microgrids,"A.
- Sustainable computing and communications: Internet broadband network of things applied to intelligent education,"Y.
- A system for energy conservation through personalized learning mechanism,"A.
- C.A.N.A.P.A.: Coltiviamo Azioni per Nutrire, Abitare, Pulire l'Aria (Cropping up actions for feeding, for living and for cleaning air),"M.
- Integrating building automation technologies with smart cities: An assessment study of past, current and future interroperable technologies,"G.
- Interconnecting smart grids and clouds to save energy,"A.
- Connecting smart grid protocol standards: A mapping model between commonly-used demand-response protocols OpenADR and MIRABEL,"S.
- The EPOC project: Energy proportional and opportunistic computing system,"N.
- Prospective products and benefits of the Green AGH Campus Project: Providing scaled-down future smart grid experience,".
- Notes:
- Description based on publisher supplied metadata and other sources.
- ISBN:
- 989-758-134-0
The Penn Libraries is committed to describing library materials using current, accurate, and responsible language. If you discover outdated or inaccurate language, please fill out this feedback form to report it and suggest alternative language.