Bibliographie Sciences du numérique et efficacité énergétique

Transcription

Bibliographie
Sciences du numérique et efficacité énergétique
08-03-2012 Inria Grenoble Rhône-Alpes, Mà paraontbonnot.
Classement thématique / type de document / chronologique.
Sommaire
ENTREE EN MATIERE
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2
Site web
Ouvrages
2
2
LE COIN DES SPECIALISTES
3
1.
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-Smart Homes
Articles dans des revues à comité de lecture
Articles déposés sur HAL
Ouvrages
Ouvrages à paraître
3
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4
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5
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-Energie pour les smart grids
Ouvrages
Conférences à venir
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9
9
12
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-Green IT
13
-Sécurisation des données
Ouvrages
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14
OUTILS ET APPLICATIONS.
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2.
3.
4.
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Structure s d’aide à l’innovation
Equipes de recherche
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1 Entrée en matière
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Site web
Wikipédia, entrée « Smart grid ».
<http://fr.wikipedia.org/wiki/Smart_grid>, [accédé le 23 février 2012].
Définition et présentation en une page de la dénomination « Smart grid ».
Commission de Régulation de l’Energie – CRE.
<http://www.smartgrids-cre.fr/index.php>, [accédé le 23 février 2012].
“Ce site de la Commission de Régulation de l’Energie vise à « Susciter la réflexion en regroupant tous
les acteurs concernés par les Smart grids en organisant des mini-forums bimestriels sur des
thèmes qui intéressent un large public ; partager l’expertise en suscitant des échanges entre
les parties prenantes. Il présente diverses expérimentations et projets menés de Smart grids
dans le monde et informe sur l’état de la réflexion et d’avancement des projets en matière de
Smart grids. […] ”
•
Ouvrages
Smart Grids. Jean-Claude Sabonnadiere, Nouredine Hadjsaid. John Wiley, février 2012, 350 p. ISBN
1848212615.
“The book describes the fundaments of Smartgrids which a very new concept of electric power
distribution networks which enables insertion of Distributed Generation Sources of Renewable
Energy by mixing information and communication technologies with power devices. The book
is organized in two different sections: The first one analyzes the integration of Smartgrids
inside the the technical including Generation-Transmission-Distribution sytem while the
second is devoted to the use of smartgrids as an incentive for an intelligent link between the
consumer and the grid. It points out the transverse functions including regulation aspects and
new business models in the electric energy paradigm.”
Smart Grid Dictionary Plus. Christine Hertzog. Delmar Cengage Learning, 2011, 256 p. ISBN
111154039X.
“This dictionnary aids you in building your foundation of Smart Grid knowledge. This learning
dictionary includes terminology pertaining to electric utilities and regulatory agencies, energy
efficiency and building automation applications, energy storage, smart meters, and
telecommunications and standards organizations. Technical concepts are covered in over 1200
Smart Grid definitions. This handy reference can become and interactive online learning
experience with our CourseMate product, which includes presentation slides with a high level
overview of the Smart Grid ecosystem, flash cards to aid in knowledge retention, and quizzes
to test comprehension of material. […]”
L'électricité du futur : Un défi mondial. Jean-Marie Chevalier. Philippe de Ladoucette. Economica, 2010,
192 p. ISBN 978-2717859065.
“L'augmentation de la consommation d'électricité, le développement des énergies renouvelables et
l'émergence de nouveaux usages comme la voiture électrique sont autant de défis qui mettent
aujourd'hui à l'épreuve la solidité et la réactivité de nos réseaux électriques. Ces réseaux
doivent évoluer pour devenir "intelligents" grâce aux nouvelles technologies de l'information et
de la communication, qui doivent être intégrées sur l'ensemble de la chaîne de valeur, depuis la
production de l'énergie jusqu'à son utilisation finale par le consommateur. Pour la première fois
en France, ce livre donne la parole aux acteurs de ce changement, qui promet d'être
révolutionnaire, le remet en perspective dans toute son ampleur et sa complexité. Rendre les
2 réseaux électriques intelligents constitue certes d'abord un défi technique, c'est aussi et
surtout un enjeu de société qui suppose un citoyen acteur, impliqué dans la maîtrise de sa
demande d'énergie, et non plus seulement consommateur, mais aussi un citoyen producteur;
quand il dispose de sources d'énergie renouvelables, capable d'interagir de manière croissante
avec le réseau. […]”
Le coin des spécialistes
1. -Smart Homes
•
Self-configuration of “Home Abstraction Layer” via Sensor-Actuator Network Zheng Hu, Gilles Privat,
Stéphane Frenot and Bernard Tourancheau. Lecture Notes in Computer Science, 2011, vol.
7040, pp. 146-150. <http://www.springerlink.com/content/q1486q015666p300/>, [accédé le
23 février 2012].
“We propose a mechanism and system for the identification, self-configuration, monitoring and control
of non-networked home devices through a shared backplane of networked sensors and
actuators. The resulting generic home abstraction layer interfaces to all kinds of physical
entities of the home through a software proxy, as if they were state-of-the-art networked
devices. The matching of the entities being discovered in the home/building environment to
known semi-generic models is performed by iterative approximation. The architecture and
OSGi-based implementation of this system is described. Examples are provided for typical
home appliances and other subsystems of the home/building that may be dealt with in a similar
way.”
Disponible sous forme électronique (intranet Inria)
Machine-to-Machine Communications for Home Energy Management System in Smart Grid. Niyato, D.
Xiao, L. Wang, P. IEEE Communications Magazine, 2011, vol. 49, no 4, pp. 53-59.
<http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5741146>, [accédé le 23 février
2012].
“Machine-to-machine (M2M) communications have emerged as a cutting edge technology for nextgeneration communications, and are undergoing rapid development and inspiring numerous
applications. This article presents an investigation of the application of M2M communications
in the smart grid. First, an overview of M2M communications is given. The enabling
technologies and open research issues of M2M communications are also discussed. Then we
address the network design issue of M2M communications for a home energy management
system (HEMS) in the smart grid. The network architecture for HEMS to collect status and
power consumption demand from home appliances is introduced. Then the optimal HEMS
traffic concentration is presented and formulated as the optimal cluster formation. A dynamic
programming algorithm is applied to obtain the optimal solution. The numerical results show
that the proposed optimal traffic concentration can minimize the cost of HEMS.”
Disponible sous forme électronique (intranet
Inria)
Designing smart homes : the role of artificial intelligence. Juan Carlos Augusto, Chris D. Nugent,
Springer, 2006, Lecture Notes in Artificial Intelligence, no 4008, 182 p.
<http://springerlink.metapress.com/openurl.asp?genre=issue&issn=03029743&volume=4008>, [accédé le 23 février 2012].
“The area of smart homes is fast developing as an emergent area which attracts the synergy of
several areas of science. This volume offers a collection of contributions addressing how
3 artificial intelligence (AI), one of the core areas of computer science, can bring the growing area
of smart homes to a higher level of functionality where homes can truly realize the long
standing dream of proactively helping their inhabitants in an intelligent way. After an
introductory section to describe a smart home scenario and to provide some basic terminology,
the following sections turn special attention to a particular exemplar application scenario
(provision of healthcare and safety related services to increase the quality of life) exploring
the application of specific areas of AI to this scenario.”
•
Plate-forme pour l'optimisation énergétique des habitats intelligents. Fabien Clanché, Mohamed
Ghassane Kabadi, Frédéric Hamelin. Colloque sur l'Enseignement des Technologies et des
Sciences de l'Information et des Systèmes, CETSIS'2011 (2011). <http://hal.archivesouvertes.fr/hal-00617988>, [accédé le 23 février 2012].
“La plate-forme Eco-sûr s'inscrit dans un contexte global de l'habitat intelligent et traite plus
spécifiquement du problème de " Supervision des habitats intelligents pour une gestion
optimisée de l'énergie consommée et la sûreté / sécurité de la fourniture de service ". Il prend
en compte les systèmes de production/stockage d'énergie, de contrôle et supervision
d'équipements de l'habitat ainsi que de contrôle/supervision du système de communication.
Cette plate-forme pilote est intégré dans un ensemble de démonstrateurs dédiés à la sûreté de
fonctionnement (SAFE-TECH). En exploitant au mieux les capacités de stockage, de traitement
et de communication de nouvelles technologies de la domotique, cette plate-forme
expérimentale a pour objectif d'illustrer une stratégie de commande/diagnostic répondant aux
exigences d'un habitat intelligent tout en minimisant l'énergie consommée.”
Disponible sous forme électronique sur internet
•
Ouvrages
Smart Grid Home. Quentin Wells. Delmar Cengage Learning, 2012, 250 p. ISBN 1111318514.
“This book explains how you can adapt and retrofit an existing residence to take advantage of the
energy and cost saving technology now available as part of the development of the Smart Grid.
Topics covered include reducing home energy consumption by eliminating heat loss and heat
transfer, reducing the power-on time of electronics and other power equipment without loss of
convenience, automating home electrical systems to maximize energy conservation, evaluating
electrical devices for energy efficiency, developing energy conservation strategies for
replacing inefficient appliances, and timing the use of electricity in the home to save both
energy and money. […] Coverage also includes the selection and installation of renewable
energy source electrical generating systems such as photovoltaic solar generating systems,
solar water heating systems, and wind turbine generating systems. In addition, the book
describes how these home-based renewable energy systems can be connected to the smart
grid so that as a homeowner, you will be paid by the public utility.”
Ouvrage à paraître (avril 2012)
Home Automation Using Power Line Communication. Karim Shah, Zeshan Sikandar Niazi, M. Abdul
Haq. Lambert Academic Publishing, 2011, 72 p. ISBN-10: 3843350868.
“Home automation using power line communication is a unique idea of optimizing resource usage.
Micro-controller generated signal is Frequency Shift keyed (modulated) and is sent on the
power line through coupling circuitry and then demodulated and fed to the receiving end microcontroller and corresponding action is performed through relays and switches. Powerline
4 communication is a progressing technology that utilizes electric power lines for efficient,
instantaneous transmission of data. The objective of our project was to design and implement
a power line communication network capable of controlling and monitoring multiple devices
from a single node.”
•
Building Services Design for Energy Efficient Buildings. Hussam Jouhara, Maria Kolokotroni, Savvas
Tassou, Paul Tymkow. Taylor & Francis, 2012, 384 p. ISBN 041559636X.
“The role and influence of building services engineers is undergoing rapid change and is pivotal to
achieving low-carbon buildings. However, textbooks in the field have remained fairly
traditional with a detailed focus on the technicalities of HVAC systems, often with little wider
context. This book addresses that need by embracing a contemporary understanding of
sustainability imperatives, together with a practical approach to the key issues impacting upon
energy efficiency, in a concise manner. The essential conceptual design issues for planning the
principal building services systems that influence energy efficiency are examined in detail.
These systems are heating, ventilation and air-conditioning (HVAC) and electric power
distribution. In order to deliver sustainable buildings, a new perspective is needed amongst
building and services engineering practitioners, from the outset of the conceptual design stage
and throughout the whole design process.”
2. -Energie pour les smart grids
•
A survey of communication/networking in Smart Grids. Gao, JC. Xiao, Y. Liu, J. Liang, W. Chen, CLP.
Future generation computer systems – The International Journal of Grid computer and EScience, 2012, vol. 28 no 2, pp. 391-404. < http://dx.doi.org/10.1016/j.future.2011.04.014>,
[accédé le 23 février 2012].
“Smart Grid is designed to integrate advanced communication/networking technologies into electrical
power grids to make them "smarter". Current situation is that most of the blackouts and
voltage sags could be prevented if we have better and faster communication devices and
technologies for the electrical grid. In order to make the current electrical power grid a Smart
Grid, the design and implementation of a new communication infrastructure for the grid are
two important fields of research. However, Smart Grid projects have only been proposed in
recent years and only a few proposals for forward-looking requirements and initial research
work have been offered in this field. No any systematic reviews of communication/networking
in Smart Grids have been conducted yet. Therefore, we conduct a systematic review of
communication/networking technologies in Smart Grid in this paper, including
communication/networking architecture, different communication technologies that would be
employed into this architecture, quality of service (QoS), optimizing utilization of assets,
control and management, etc”.
Disponible
sous
forme électronique (intranet Inria)
Electric Field Energy Harvesting Powered Wireless Sensors for Smart Grid. Chang, K. Kang, S. Park, K.
Shin, S. Kim, HS. Kim, H. Journal of Electrical Engineering & Technology, 2012, vol. 7, no 1, pp.
75-80. <http://www.jeet.or.kr/LTKPSWeb/pub/pubfpfile.aspx?ppseq=452>
“In this paper, a new energy harvesting technology using stray electric field of an electric power line
is presented. It is found that energy can be harvested and stored in the storage capacitor that
is connected to a cylindrical aluminum foil wrapped around a commercial insulated 220 V power
line. The average current flowing into 47 mu F storage capacitor is about 4.53 mu A with 60
5 cm long cylindrical aluminum foil, and it is possible to operate wireless sensor node to transmit
RF data every 42 seconds. The harvested average power is about 47 mu W in this case. Since
the energy can be harvested without removing insulating sheath, it is believed that the
proposed harvesting technology can be applied to power the sensor nodes in wireless
ubiquitous sensor network and smart grid system”.
Wireless Sensor Networks for smart grid applications. Erol-Kantarci, M.; Mouftah, H.T.; Electronics,
Communications and Photonics Conference (SIECPC), 24-26 April 2011, pp. 1-6.
<http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5876687> [accédé le 23 février
2012].
“Electrical power grid is among the critical infrastructures of a nation. In the past several years, the
power grids have experienced several major failures which have caused large financial losses
in various countries around the globe. In a close future, the imbalance between the growing
demand and the diminishing fossil fuels, aging equipments, and lack of communications are
anticipated to negatively impact the operation of the power grids. For this reason,
governments and utilities have recently started working on renovating the power grid to meet
the power quality and power availability demands of the 21st century. The opportunities that
have become available with the advances in Information and Communications Technology (ICT)
have paved the way to this modernization. The new grid empowered by ICT is called as the
smart grid. The natural extension of the smart grid applications to the consumer premises can
be through Wireless Sensor Networks (WSNs) which are able to provide pervasive
communications and control capabilities at low cost. […]”.
Knowing When to Act: An Optimal Stopping Method for Smart Grid Demand Response. Iwayemi, A; Yi,
PZ; Dong, XH; Zhou, C. IEEE Network, 2011, vol. 25, no 5, pp. 44-49.
2012].
“A major benefit of the smart grid is that it can provide real-time pricing, which enables residential
electricity customers to reduce their electricity expenses by scheduling their appliance use. A
commonly utilized technique is to operate electrical appliances when the price of electricity is
low. Although this technique is simple in principle and easy to apply, there are several issues
that need to be addressed: Studies have shown that residents do not know how, or have the
time to take advantage of real-time price information; residents seek to save money by
delaying device usage but do not want the inconvenience of long wait times; and a lack of
automated energy management systems-industry trials of real-time pricing programs requiring
manual user intervention have performed poorly. In this work, we address these issues by the
means of an optimal stopping approach, which can balance electricity expense and waiting
time. […].”
How Internet Concepts and Technologies Can Help Green and Smarten the Electrical Grid. Keshav,
Rosenberg, C. Computer Communication Review, 2011, vol. 41, no 1, pp. 109-114.
“Several powerful forces are gathering to make fundamental and irrevocable changes to the centuryold grid. The next-generation grid, often called the 'smart grid,' will feature distributed energy
production, vastly more storage, tens of millions of stochastic renewable-energy sources, and
the use of communication technologies both to allow precise matching of supply to demand
and to incentivize appropriate consumer behaviour. These changes will have the effect of
reducing energy waste and reducing the carbon footprint of the grid, making it 'smarter' and
'greener.' In this position paper, we discuss how the concepts and techniques pioneered by the
Internet, the fruit of four decades of research in this area, are directly applicable to the design
of a smart, green grid. This is because both the Internet and the electrical grid are designed to
6 meet fundamental needs, for information and for energy, respectively, by connecting
geographically dispersed suppliers with geographically dispersed consumers. […]”.
SOA Distributed Operating System for Managing Embedded Devices in Home and Building
Automation. Sleman, A. Moeller, R. IEEE Transactions on Consumer Electronics, 2011, vol. 57, no
2, pp. 945-952. <http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5955244>
[accédé le 23 février 2012].
“Wireless sensor networks have become an essential part of home and building automation, especially
for energy management and health monitoring. This paper presents a Distributed Operating
System (DOS) based on the Service-Oriented Architecture (SOA) to manage all embedded
devices in a home network at high level of interoperability. This system can solve many
problems related to accessing home network from Internet and future networks like Smart
Grids. The proposed system takes into consideration the limited resources of sensors as well as
the matters of simultaneous multi-access, eventing, authorization, security and scheduling the
on-line time of sensors in order to reduce power consumption. The paper shows the
advantages of using some features of our SOA distributed operating system, like using a queue
with a dispatcher to dispatch the simultaneous web requests and also using cache and
scheduling, in addition to using a requester to enable accessing embedded devices with
different networking protocols. […]”.
A survey on the communication architectures in smart grid. Wang, WY. Xu, Y. Khanna, M. Computer
Networks,
2011,
vol.
55,
no
15,
pp.
3604-3629.
<http://dx.doi.org/10.1016/j.comnet.2011.07.010>, [accédé le 23 février 2012].
“The next-generation electric power systems (smart grid) are studied intensively as a promising
solution for energy crisis. One important feature of the smart grid is the integration of highspeed, reliable and secure data communication networks to manage the complex power
systems effectively and intelligently. We provide in this paper a comprehensive survey on the
communication architectures in the power systems, including the communication network
compositions, technologies, functions, requirements, and research challenges. As these
communication networks are responsible for delivering power system related messages, we
discuss specifically the network implementation considerations and challenges in the power
system settings. This survey attempts to summarize the current state of research efforts in
the communication networks of smart grid, which may help us identify the research problems
in the continued studies”.
Disponible sous forme électronique (intranet
Inria)
Connecting Low-Power and Lossy Networks to the Internet. Ko, J. Terzis, A. Dawson-Haggerty, S.
Culler, DE. Hui, JW. Levis, P. IEEE Communications Magazine, 2011, vol. 49, no 4, pp. 96-101.
“Many applications, ranging from wireless healthcare to energy metering on the smart grid, have
emerged from a decade of research in wireless sensor networks. However, the lack of an IPbased network architecture precluded sensor networks from interoperating with the Internet,
limiting their real-world impact. Given this disconnect, the IETF chartered the 6LoWPAN and
RoLL working groups to specify standards at various layers of the protocol stack with the goal
of connecting low-power and lossy networks to the Internet. We present the standards
proposed by these working groups, and describe how the research community actively
participates in this process by influencing their design and providing open source
implementations.”
The Role of Energy Storage in Development of Smart Grids. Bradford P. Roberts, Chet Sandberg.
Proceedings
of
the
IEEE,
vol.
99,
no.
6,
June
2011,
6
p.
<http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=05768106>, [accédé le 23 février
7 2012].
“The adoption of Smart Grid devices throughout utility networks will effect tremendous change in grid
operations and usage of electricity over the next two decades. The changes in ways to control
loads, coupled with increased penetration of renewable energy sources, offer a new set of
challenges in balancing consumption and generation. Increased deployment of energy storage
devices in the distribution grid will help make this process happen more effectively and
improve system performance. This paper addresses the new types of storage being utilized for
grid support and the ways they are integrated into the grid”.
A Smart Energy Distribution and Management System for Renewable Energy Distribution and
Context-aware Services based on User Patterns and Load Forecasting. Byun, J. Hong, I. Kang, B.
Park, S. IEEE Transactions on Consumer Electronics, 2011, vol. 57, no 2, pp. 436-444.
2012].
“Emerging green IT and smart grid technologies have changed electric power infrastructure more
efficiently. These technologies enable a power system operator and a consumer to improve
energy efficiency and reduce greenhouse gas emissions by optimizing energy distribution and
management. There are many studies of these topics with the trend of green IT and smart grid
technology. However, existing systems are still not effectively implemented in home and
building because of their architectural limitations. Therefore, in this paper, we propose a smart
energy distribution and management system (SEDMS) that operates through interaction
between a smart energy distribution system and a smart monitoring and control system.
Proposed system monitors information about power consumption, a user's situation and
surroundings as well as controls appliances using dynamic patterns. Because SEDMS is
connected with the existing power grid and with the new-renewable energy system, we
consider integration of new-renewable energy system through electric power control. […]”.
Back to the future renewable energy sources and green smart grid. Kateeb, IA, Bikdash, M, Chopade,
P. IEEE SoutheastCon 2011-Building Global Engineers, Tennessee State Univ, Nashville, TN,
March
17-20,
2011,
pp.
147-152.
2012].
“There are advantages and disadvantages of the green power generation technologies using
Renewable Energy Sources (RES) such as solar, wind energy, fuel cells, and biomass power
generation, which can be used for generating distributed power. RESs cannot directly replace
the existing electric energy grid technologies. The latter are far too well established to
abandon, while the new RES technologies are not sufficiently developed to meet the total
energy demand. Therefore, it is sensible to gradually infuse RES into existing grids and
transform the system over time. In this paper, there is a full exploitation of RES components
which are critical to managing carbon emission and the limitations of the current grid to the
new RES technologies, which face barriers to full-scale deployment as a conclusion.”
Opportunities and Challenges with Net Zero Energy Buildings. Mukherjee, S. IEEE 23rd International
Symposium on Power Semiconductor Devices and ICs (ISPSD), San Diego, CA, May, 23-26, 2011,
pp. 1-5. <http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=5890776>, [accédé le 23
février 2012].
“Buildings represent around 41% of the total energy consumption in the US followed closely by
industry (31%) and transportation (28%). One of the milestones set by the US Department of
Energy is the development and deployment of net zero energy buildings defined as buildings
8 that on a yearly average spend as much energy as they generate using renewable energy
sources. Realization of net zero energy buildings require a wide ranges of technologies,
systems and solutions with varying degrees of complexity and sophistication depending upon
the location and surrounding environmental conditions. Lighting is a dominant load in buildings
followed by heating, cooling, ventilation and various plug loads. This paper will address the
roles of different technologies, devices and control strategies being developed for low energy
buildings leading to net zero energy buildings. These include high efficiency lighting, daylight
integration, DC power bus, solar power integration; closed loop integrated control, smart grid
interface as well as emerging approaches such as chilled beams and active facades. […]”
•
Heterogeneous IPv6 Infrastructure for Smart Energy Efficient Building. Leila Ben Saad, Cedric
Chauvenet, Bernard Tourancheau. SDEWES (2011), <http://hal.inria.fr/hal-00646061>, [accédé le
23 février 2012].
“In the context of increasing developments of home, building and city automation, the Power Line
Communication (PLC) networking medium is called for unpreceeding usage. Our view of the
future building networking infrastructure places PLC as the central point. We show in this
paper that even if Wireless Sensors Networks (WSN) are good candidates in several cases of
the sensor and actuator networking infrastructure, PLC is mandatory in several place of the
smart-grid metering and command infrastructure. Also PLC will serve the infrastructure on the
sensor/actuator side when the energy requirement cannot be fulfilled by autonomous battery
and capacitor based nodes. PLC may provide the numerous bridges necessary to sustain a long
lifetime (years) for the WSN infrastructures. This new role of PLC networking will be possible
only if the inter-operability between all media and technology is made possible. […]”.
•
Ouvrages
The smart grid: Enabling Energy Efficiency and Demand Response [Format Kindle]. Clark Gellings
The Fairmont Press, avril 2011, format Kindle, 2 601 KB.
“The power system has often been cited as the greatest and most complex machine ever built, yet it
is predominantly a mechanical system. However, technologies and intelligent systems are now
available which can significantly enhance the overall functionality of power distribution, and
make it ready to meet the needs the 21st century. This book explains in detail how sensors,
communications technologies, computational ability, control, and feedback mechanisms can be
effectively combined to create this new, continually adjusting "smart grid" system. You'll gain
an understanding of both IntelliGridSM architecture and EnergyPortSM, as well as how the
integration of intelligent systems can be effectively utilized toward achieving the goals of
reliability, cost containment, energy efficiency in power production and delivery, and end-use
energy efficiency”.
Handbook of research on ambient intelligence and smart environments : trends and perspective. NakYoung Chong, Fulvio Mastrogiovanni. Hershey, Information Science Reference, 2011, 738 p.
ISBN
978-1-616-92857-5.
“This book covers the cutting-edge aspects of AMI applications, specifically those involving the
effective design, realization, and implementation of a comprehensive ambient intelligence in
smart environments”.
Disponible dans le service IST INRIA
9 Grenoble
Smart Grid: Integrating Renewable, Distributed & Efficient Energy. Fereidoon Perry Sioshansi.
Academic Press Inc, 2011, 568 p. ISBN-10: 0123864526.
“The creation of a flexible, efficient, digitized, dependable and resilient power grid may well be the
best route to increasing energy efficiency & security, as well as boosting the potential of
renewable & distributed power sources. However, there is still much confusion about the
nature of the Smart Grid: What is it? What work needs to be accomplished in order to make it a
reality? How will it benefit the drive to diversify energy resources? This book covers Smart
Grids from A-Z, providing a complete treatment of the topic, covering both policy and
technology, explaining the most recent innovations supporting its development, and clarifying
how the Smart Grid can support the integration of Renewable Energy resources. Among the
most important topics included are smart metering, renewable energy storage, plug-in hybrids,
flexible demand response, strategies for offsetting intermittency issues, micro-grids for offgrid communities, and specific in-depth coverage of wind and solar power integration. […]”
The Advanced Smart Grid: Edge Power Driving Sustainability. Andres Carvallo, John Cooper. Artech
House Publishers, 2011, 225 p. ISBN 1608071278
“The Inevitable Evolution of Smart Grids. The Rationale for an Advanced Smart Grid. Vision, Planning,
and Initiative. Smart Grid 1.0: From Power Plant to Meters. The National Perspective on Smart
Grid. Interfacing with Distributed Energy Resources (DER). Smart Grid 2.0 Emerges: An
Integrated, Advanced Smart Grid. The Potential of Advanced Smart Grids. Fast Forward to
Smart Grid 3.0.”
Modeling and Control of Sustainable Power Systems: Towards Smarter and Greener Electric Grids.
Lingfeng Wang. Springer, 2011, 380 p. ISBN 3642229034.
“The concept of the smart grid promises the world an efficient and intelligent approach of managing
energy production, transportation, and consumption by incorporating intelligence, efficiency,
and optimality into the power grid. Both energy providers and consumers can take advantage
of the convenience, reliability, and energy savings achieved by real-time and intelligent energy
management. To this end, the current power grid is experiencing drastic changes and upgrades.
For instance, more significant green energy resources such as wind power and solar power are
being integrated into the power grid, and higher energy storage capacity is being installed in
order to mitigate the intermittency issues brought about by the variable energy resources. At
the same time, novel power electronics technologies and operating strategies are being
invented and adopted. For instance, Flexible AC transmission systems and phasor
measurement units are two promising technologies for improving the power system reliability
and power quality. […]”
Fundamentals of Materials for Energy and Environmental Sustainability. David S. Ginley, David Cahen.
Cambridge University Press 2011, 800 p. ISBN 1107000238.
“How will we meet rising energy demands? What are our options? Are there viable long-term solutions
for the future? Learn the fundamental physical, chemical and materials science at the heart of:
Renewable/non-renewable energy sources, Future transportation systems, Energy efficiency,
Energy storage Whether you are a student taking an energy course or a newcomer to the field,
this book will help you understand critical relationships between the environment, energy and
sustainability. Leading experts provide comprehensive coverage of each topic, bringing
together diverse subject matter by integrating theory with engaging insights. Each chapter
includes helpful features to aid understanding, including a historical overview to provide
context, suggested further reading and questions for discussion. Every subject is beautifully
illustrated and brought to life with full color images and color-coded sections for easy
browsing, making this a complete educational package.”
10 Design of Smart Power Grid Renewable Energy Systems. Ali Keyhani. Wiley-Blackwell, 2011, 592 p.
ISBN 0470627611.
“The first guide to the Design and modeling of smart grid energy systems. As we begin the second
decade of the 21st century and approach the problem of global warming, we need to accept a
fundamental change in how we create, generate, distribute, and use energy. Creating
sustainable energy, thereby reducing or eliminating our carbon footprint and efficiently
utilizing available energy resources, is of vital importance. Smart grid renewable energy
systems are a revolutionary concept in electrical engineering designed to allow end users
control over their individual energy needs by providing them with the means to create,
maintain, and distribute energy. Design of Smart Power Grid Renewable Energy Systems
uniquely addresses the design and modeling of smart grid renewable energy systems by
integrating three areas of electrical engineering: power system engineering, power electronics,
and electric energy conversion systems—with an approach that differs from classic methods.
[…]”
Smart grid: Electrical Grid, Energy Security, Global Warming, Resilience, Power Line Communication,
Electric Power Transmission, Electricity Distribution, Smart Meter, Load Control Switch.
Lambert M. Surhone, Miriam T. Timpledon, Susan F. Marseken. Betascript Publishing 2010, 112
p., ISBN 6130307993.
“Energy demand management, also known as demand side management (DSM), entails actions that
influence the quantity or patterns of use of energy consumed by end users, such as actions
targeting reduction of peak demand during periods when energy-supply systems are
constrained. Peak demand management does not necessarily decrease total energy
consumption but could be expected to reduce the need for investments in networks and/or
power plants.”
Interconnecting smart objects with IP: the next Internet. Jean-Philippe Vasseur, Adam Dunkels.
Morgan Kaufmann Publishers/Elsevier, 2010, 407 p. ISBN 978-0-12-375165-2.
“The book covers: background: wireless sensor networks, ubiquitous computing, computer networking;
technology: hardware and software, low-power communication with 802.15.4 and WiFi, power
line communications (PLC), the Internet Protocol stack, IPv6, UDP and TCP, REST and web
services, security, 6LoWPAN header compression, RPL routing; smart object applications: the
smart grid, smart cities, building automation, home automation, industrial automation”.
Disponible dans le service IST INRIA Grenoble
SOA governance : achieving and sustaining business and IT agility. William A. Brown [et al.] IBM
Press/Pearson plc, 2009. 390 p. ISBN 978-0-13-714746-5.
“Inadequate governance might be the most widespread root cause of SOA failure. In SOA Governance,
a team of IBM’s leading SOA governance experts share hard-won best practices for governing
IT in any service-oriented environment. The authors begin by introducing a comprehensive SOA
governance model that has worked in the field. They define what must be governed, identify
key stakeholders, and review the relationship of SOA governance to existing governance
bodies as well as governance frameworks like COBIT. Next, they walk you through SOA
governance assessment and planning, identifying and fixing gaps, setting goals and objectives,
and establishing workable roadmaps and governance deliverables. Finally, the authors detail
the build-out of the SOA governance model with a case study. The authors illuminate the
unique issues associated with applying IT governance to a services model, including the
challenges of compliance auditing when service behavior is inherently unpredictable. […]”
Disponible dans le service IST INRIA Nancy
11 •
Smart Grid: Fundamentals of Design and Analysis. James A. Momoh. Wiley-Blackwell, 2012, 232 p.
ISBN 047088939X.
“The book is written as primer hand book for addressing the fundamentals of smart grid. It provides
the working definition the functions, the design criteria and the tools and techniques and
technology needed for building smart grid. The book is needed to provide a working guideline
in the design, analysis and development of Smart Grid. It incorporates all the essential factors
of Smart Grid appropriate for enabling the performance and capability of the power system.
There are no comparable books which provide information on the “how to” of the design and
analysis. It provides a fundamental discussion on the motivation for the smart grid
development, the working definition and the tools for analysis and development of the Smart
Grid. Standards and requirements needed for designing new devices, systems and products are
discussed; the automation and computational techniques need to ensure that the Smart Grid
guarantee[…]”.
Ouvrage à paraître (avril
2012)
Smart Grid: Technology and Applications. Janaka Ekanayake, Nick Jenkins, Kit hsiri Liyanage, Jianzhong
Wu, Akihiko Yokoyama. Wiley-Blackwell, 2012, 320 p. ISBN 0470974095.
“This book provides discussion on the fundaments of the Smart Grid concept and then describes the
technologies that are required for its realisation. It allows the reader to engage with the
immediate development of the power system and to take part in the debate over the future
Smart Grid. The book opens with an overview on understanding the Smart Grid, and then is
divided into three sections. Section 1 ('Information and Communications Technologies') covers
communication standards for the Smart Grid. Section Two discusses sensing, measurement,
control and automation.Smart metering and demand side participation are described in detail,
before distribution automation and the distribution management system. The last chapter of
this section covers advanced transmission system operation. Section Three looks at power
electronic and advanced components. First of all the topic of power electronics in power
demand and supply is presented. Enabling technologies and advanced components are
described last of all, giving a balanced view of Smart Grids.”
Smart Grid Communications and Networking. Ekram Hossain, Zhu Han, H. Vincent Poor. Cambridge
University Press, 2012, 564 p. ISBN 1107014131.
“The smart grid will transform the way power is delivered, consumed and accounted for. Adding
intelligence through the newly networked grid will increase reliability and power quality,
improve responsiveness, increase efficiency and provide a platform for new applications. This
one-stop reference covers the state-of-the-art theory, key strategies, protocols, applications,
deployment aspects and experimental studies of communication and networking technologies
for the smart grid. Through the book's 20 chapters, a team of expert authors cover topics
ranging from architectures and models through to integration of plug-in hybrid vehicles and
security. Essential information is provided for researchers to make progress in the field and to
allow power systems engineers to optimize communication systems for the smart grid.”
Ouvrage à paraître (juin 2012)
Smart Grid Infrastructure & Networking. Krzysztof Iniewski. McGraw-Hill Professional, 2012, 320 p.
ISBN 0071787747.
“A complete guide to smart grid networking and communications for energy engineers. Smart Grid
Infrastructure & Networking describes network technologies for smart grids, including details
on standardization, applications, protocols, wireless, wireline, and fiber optic communications.
Architecture, management, and other topics are also discussed. Smart grids have the potential
to reduce carbon dioxide emissions through the integration of renewable energy resources,
12 energy storage, and plug-in hybrid electric vehicles. They can increase the reliability of the
electricity supply and render the utilization of power generation stations and electricity
transport infrastructure more efficient by enabling dynamic pricing and demand/response
strategies. Historical and future developments in the energy sector; Smart grid communications
and standardization; Smart grid applications in energy generation and transmission; Smart grid
applications, from energy distribution to customer; Sensing, automation, and control protocols;
Wireless communications for smart grids; Wireline communications for smart grids; Fiber optical
communications for smart grids.[…]”
Ouvrage à paraître (juillet 2012)
•
Conférences à venir
1st International Conference on Smart Grids and Green IT Systems – SMARTGREENS, Porto,
Portugal, 19-20 April, 2012. <http://www.smartgreens.org/>, [accédé le 23 février 2012].
“The purpose of the 1st International Conference on Smart Grids and Green IT Systems
(SMARTGREENS) is to bring together researchers, designers, developers and practitioners interested
in the advances and applications in the field of Smart Grids, Green Information and Communication
Technologies, Sustainability, Energy Aware Systems and Technologies”.
1st IEEE INFOCOM Workshop on Communications and Control for Sustainable Energy Systems
(CCSES): Green Networking and Smart Grids is held as part of IEEE INFOCOM 2012 at
Orlando, Florida, USA on March 30, 2012. <http://csl.uiuc.edu/smart-grid>, [accédé le 23 février
2012].
3rd IEEE PES Innovative Smart Grid Technologies (ISGT) Europe Conference, Berlin University of
Technology (TU Berlin), sponsored by IEEE Power & Energy Society (PES), October 14-17,
2012. <http://www.ieee-isgt-2012.eu/>, [accédé le 23 février 2012].
“The Conference will be a forum for the participants to discuss the state-of-the-art innovations in
smart grid technologies.
3rd IEEE International Conference on Smart Grid Communications-SmartGridComm 2012, 05-08
November 2012, Tanan City, Taiwan. <http://www.ieee-smartgridcomm.org/>, [accédé le 23
février 2012].
“Developing the Smart Grid has become an urgent global priority, promising economic, environmental,
and societal benefits. Information and communications technologies are at the core of the
Smart Grid vision as they will empower today’s power grid with the capability of supporting
two-way energy and information flow, isolating and restoring power outages more quickly,
facilitating the integration of renewable energy sources into the grid and empowering the
consumer with tools for optimizing their energy consumption”.
3. -Green IT
Voir la bibliographie réalisée à l’occasion du séminaire Intech’ « Green IT et développement
durable »;08 juin 2010.
13 4. -Sécurisation des données
•
Ouvrages
Smart Grid Applications, Communications and Security. Lars T. Berger, Krzysztof Iniewski. 480 p. John
Wiley, 2012, ISBN 1118004396.
“Smart grids represent what many believe to be the next big technological revolution since the
internet. Governments are pumping large sums of money into smart grid research,
development and deployments. With the potential to reduce carbon dioxide emissions, increase
reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is
clear that the advancement of these smart grids is an important and inevitable conclusion. This
text will provide insight into the power electronics sensing, monitoring and control
technologies, as well as deeply exploring the communication aspects of smart grids.”
Cybersecurity for the Electric Smart Grid: Elements and considerations. Nova Science, 2012, Energy
Science, Engineering and Technology. ISBN 978-1-61942-353-4.
“The "Smart Grid" is the name given to the evolving electric power network as new information
technology systems and capabilities are incorporated. While these new components may add to
the ability to control power flows and enhance the efficiency of grid operations, they also
potentially increase the susceptibility of the grid to cyber attack since they are built around
microprocessor devices whose basic functions are controlled by software programming. This
book examines the "Smart Grid" where the potential for a major disruption or widespread
damage to the nation's power system from a large scale cyberattack has increased focus on
cybersecurity.”
Ouvrage à paraître (juin 2012)
Securing the Smart Grid: Next Generation Power Grid Security. Tony Flick, Justin Morehouse. Syngress
Media, 2010, 320 p. ISBN 1597495700.
“Smart Grids are the future of energy. By creating networks from power plant to home, utility
companies will be able to regulate power consumption making sure that consumers are
receiving the amount that is needed, no more or less. While this new use of networking
technology and unique applications such as smart meters will help to conserve energy it also
opens up a pipeline, that was regulated manually, into the computer world of interconnected
networks. The infrastructure that is being built will need to have robust security as an attack
on this network could create chaos to tens of thousands of power consumers, stop a utility
company in its tracks, or be used in a cyberwar. Securing the Smart Grid takes a look at grid
security today, how it is developing and being deployed into now over 10 million households in
the US alone. Direct attacks to smart meters as well as attacks via the networks will be
detailed along with suggestions for defense against them. […]”
14 Outils et applications.
•
Structure s d’aide à l’innovation
MINALOGIC <http://www.minalogic.com/>, [accédé le 23 février 2012].
“Labellisé en Juillet 2005, le pôle de compétitivité mondial MINALOGIC anime et structure dans la
région Rhône-Alpes, un espace majeur d'innovation et de compétences spécialisées dans les
solutions miniaturisées intelligentes pour l'industrie”.
OSEO <http://www.oseo.fr/>, [accédé le 23 février 2012].
Etablissement public à caractère industriel ou commercial (Epic), Oseo a pour mission de “ Soutenir
l'innovation et la croissance des PME, en partageant avec elles les risques lors des phases clés
de leur cycle de vie”.
TENERRDIS <http://www.tenerrdis.fr/> , [accédé le 23 février 2012].
“Pôle de compétitivité Technologies Énergies Nouvelles Énergies Renouvelables Rhône-Alpes, Drôme,
Isère, Savoie”.
•
Equipes de recherche
PLANETE <http://planete.inria.fr/>, [accédé le 23 février 2012].
“The Planète project-team conducts research in the domain of networking, with an emphasis on
designing, implementing, and evaluating Internet protocols and applications. The main objective of
the project-team is to propose and study new architectures, services and protocols that will enable
efficient and secure communication through the Internet”.
PRIMA-Perception, recognition and integration for interactive environments <http://wwwprima.imag.fr/>, [accédé le 23 février 2012].
“The project PRIMA concerns the development of perception and recognition methods based on local
appearance. The project performs integration experiments using an architectural model based on
intelligent control of distributed reactive systems”.
RESO-Optimized Protocols and Software for High-Performance Networks <http://www.enslyon.fr/LIP/RESO/web/>, [accédé le 23 février 2012].
“Our work follows four major research topics : Protocols and Services Implementation, Network Control
and Optimization, Network Metrology, Network Services”.
Bibliographie réalisée par le service IST Inria Grenoble Rhône-Alpes/ Février 2012
Pour tout renseignement, contactez [email protected]
15

Bibliographie Sciences du numérique et efficacité énergétique

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