Automating Building Energy Management for Accelerated Building Decarbonization: System Architecture and the Network Layer (eBook)
688 Seiten
Wiley-IEEE Press (Verlag)
978-1-394-20308-6 (ISBN)
Complete, up-to-date reference on system architecture for building energy management systems
Automating Building Energy Management for Accelerated Building Decarbonization delivers detailed technical information on building energy management control technology and guidelines to implementing and deploying building energy management systems. The book provides a detailed look at the system architecture of cloud-based building energy management systems, and a comprehensive review of technology for the networking layer, from the link layer through the application layer. Wired and wireless link layer protocols, and Internet network layer protocols from the TCP/IP suite are thoroughly reviewed, and discussed in the context of deploying an in-building, operational technology network.
At the application layer, BACnet, for large commercial and government buildings, and Bluetooth Low Energy, Zigbee, and Matter, for smaller commercial and residential buildings, are discussed in detail, with focus on energy management and building decarbonization. The API standards OpenAPI 3.1 and AsyncAPI 3.0 are used to define example APIs for controlling an HVAC system, illustrating how to provide API abstractions that simplify the development of building energy management applications and services. Finally, a discussion of controlling onsite distributed energy resources, such as solar panels and on-site battery storage, through SunSpec Modbus, and communicating with the utility through OpenADR and IEEE 2030.5 provide a solid technical foundation for implementing communication services in demand response and flexible load applications.
Security is emphasized as a key property for the operational technology networks that run building energy systems up and down the stack. At the architectural level, security functions including data origin authentication, confidentiality protection, and key exchange are discussed in detail. Detailed information on security protocols including IPsec at the network layer, TLS at the transport layer, and Oauth2.0 at the application layer is presented. In addition, advice on deploying security solutions in building energy management networks is provided.
Throughout the book, QR codes provide access to short videos about topics where more depth is needed or that are only briefly covered. These allow the reader to view more information about important topics.
Automating Building Energy Management for Accelerated Building Decarbonization is an essential resource for managers, engineers, and other professionals involved in designing and building energy management services for commercial and residential buildings. It is also an excellent reference for university and training courses related to building decarbonization and renewable energy.
James Kempf, PhD, is a Senior Consultant for Kempf and Associates Consulting, a teacher of blockchain and smart contracts at the University of California Santa Cruz Extension, and a Member of the IEEE Blockchain-Enabled Transactive Energy (BCTE) Initiative. Previously, he was Senior Principal Architect at Equinix where he led the Edge Services Innovation advanced development team and oversaw the architecture of Equinix Edge Metal as a service product.
Acronyms
** Numbers **
- 10BASE‐T
- 10 Mbit/sec Ethernet
- 100BASE‐TX
- 100 Mbit/sec Ethernet
- 1000BASE‐T
- 1 Gbit/sec Ethernet
- 3GPP
- Third‐Generation Partnership Project
- 4G
- Fourth‐Generation Cellular Protocol, i.e., LTE
- 5G
- Fifth‐Generation Cellular Protocol
- 6LoWPAN
- IPv6 over Low‐Power Wireless Personal Area Network
** A **
- AAA
- Authentication, Authorization, and Accounting
- ACK
- Acknowledgement
- ACL
- Access Control List
- ADU
- Application Data Unit
- AES
- Advanced Encryption Standard
- AIFS
- Arbitrary Distributed Inter‐Frame Space
- AMI
- Advanced Metering Infrastructure
- AMQP
- Advanced Message Queuing Protocol
- ANSI
- American National Standards Institute
- AODV
- Ad‐hoc On‐demand Distance Vector
- APDU
- Application Protocol Data Units
- API
- Application Programming Interface
- ARP
- Address Resolution Protocol
- ARPANET
- Advanced Research Projects Agency Network
- ASCII
- American Standard Code for Information Interchange
- ASHRAE
- American Society of Heating, Refrigeration, and Air‐conditioning Engineers
- ASN
- Absolute Slot Number
- ASN.1
- Abstract Syntax Notation 1
- ATT
- Attribute Profile
- AH
- Authentication Header
- AXFR
- Absolute Zone Transfer Protocol
** B **
- BACnet
- Building Automation Control network
- BACnet/SC
- BACnet Secure Connect
- BAS
- Building Automation System
- BBMD
- BACnet Broadcast Management Device
- BDB
- Base Device Behavior
- BESS
- Battery Energy Storage System
- BEMS
- Building Energy Management System
- BESS
- Battery Energy Storage System
- BGP
- Border Gateway Protocol
- BIBB
- BACnet Interoperability Building Block
- BLE
- Bluetooth Low Energy
- BOOTP
- Bootstrap Protocol
- BPDU
- Bridge Protocol Data Units
- Bps
- Bits per second
- BSS
- Basic Service Set
- BSSID
- Basic Service Set ID
- BTP
- Bluetooth Transport Protocol
- BTU
- British Thermal Units
- BVLC
- BACnet Virtual Link Control
- BVLL
- BACnet Virtual Link Layer
** C **
- CA
- Certificate Authority
- CAISO
- California Independent System Operator
- CAT M1
- Category M1 LTE wireless protocol
- CCMP or CCM*
- Counter Mode Cipher Block Chaining Message Authentication Code Protocol
- CEC
- California Energy Commission
- CID
- Company ID
- CIDR
- Classless Interdomain Routing
- CIM
- Common Information Model
- CLI
- Command Line Interface
- COBS
- Consistent Overhead Byte Stuffing
- COP
- Coefficient of Performance
- CORS
- Cross‐Origin Resource Sharing
- COV
- Change of Value
- CP
- PAE Controlled Port state machine
- CRL
- Certificate Revocation List
- CRUD
- Create, Read, Update, and Delete
- CSA
- Connectivity Standards Alliance
- CSIP
- Common Smart Inverter Profile
- CSMA/CA
- Carrier Sense Multiple Access with Collision Avoidance
- CSMA/CD
- Carrier Sense Multiple Access with Collision Detection
- CSML
- Control System Markup Language
- CSV
- Comma Separated Value
- CTA
- Consumer Technology Association
- CTE
- Constant Tone Extension
- CW
- contention window
** D **
- DAG
- Directed Acyclic Graph
- DALI
- Digital Addressable Lighting Interface
- DAO
- Destination Advertisement Object
- DAQ
- Device Automated Qualification
- DCF
- Distributed Co‐ordination Function
- DER
- Distributed Energy Resource
- DERMS
- Distributed Energy Resource Management System
- DHCP
- Dynamic Host Configuration Protocol
- DIFS
- Distributed Inter‐Frame Space
- DIO
- DODAG Information Object
- DODAG
- Destination Oriented Acyclic Graph
- DOE
- Department of Energy
- DNP3
- Distributed Network Protocol 3
- DNS
- Domain Name System
- DR
- Demand Response
- DRAS
- Demand Response Automation Server
- DRLC
- Demand Response and Load Control
- DSO
- Distribution System Operator
- DTLS
- Datagram Transport Layer Security
** E **
- EAP
- Extensible Authentication Protocol
- EAPOL
- Extensible Authentication Protocol over LAN
- ECC
- Elliptic Curve Cryptosystem
- ECDSA
- Elliptic Curve Digital Signature Algorithm
- ECN
- Explicit Congestion Notification
- EDCF
- Enhanced Distributed Co‐ordination Function
- EIA
- Energy Information Administration
- EPA
- Environmental Protection Agency
- EPRI
- Electric Power Research Institute
- ESS
- Extended Service Set
- ESP
- Encapsulating Security Header
- ETS
- Engineering Tool Software
- EUI
- Extended Unique Identifier
- EV
- Electric Vehicle
- EVSE
- Electric Vehicle Supply Equipment
** F **
- FDO
- Firmware Device Onboard
- FIFO
- First‐In‐First‐Out
- FQDN
- Fully Qualified Domain Name
- FTP
- File Transfer Protocol
** G **
- GAP
- Generic Access Profile
- GATT
- Generic Attribute Profile
- Gbps
- Gigabits Per Second
- GEB
- Grid‐Interactive Efficient Buildings
- GHz
- Gigahertz
- GSS‐API
- Generic Security Service Application Program Interface
- GUI
- Graphical User Interface
** H **
- HAN
- Home Area Network
- HCI
- Host Controller Interface
- HLDE
- High Level Dialog on Energy
- HMAC
- Hashed Message Authentication Code
- HTML
- Hypertext Markup Language
- HTTP
- Hypertext Transfer Protocol
- HTTPs
- Hypertext Transfer Protocol secure
- HVAC
- Heating, Ventilation, and Air Conditioning
** I **
- IA
- Interoperability Area
- IAM
- Identity and Access Management
- IANA
- Internet Assigned Numbers Authority
- ICANN
- Internet Corporation for Assigned Names and Numbers
- ICT
- Information and Communication Technologies
- ID
- Identifier
- IEC
- International Electrotechnical Commission
- IETF
- Internet Engineering Task Force
- I/G
- Individual/Group
- IKE
- Internet Key Exchange
- IoT
- Internet of Things
- IP
- Internet Protocol
- IPSec
- Internet Protocol Security
- IPv4
- Internet Protocol, version 4
- IPv6
- Internet Protocol, version 6
- ISM
- Industrial, Scientific, and Medical
- ISO
- Independent System Operator
- ISP
- Internet Service Provider
- IT
- Information Technology
- ITU
- International Telecommunication Union
- ITU‐T
- International Telecommunication Union Telecommunication Standardization Committee
- IXFR
- Incremental Zone Transfer Protocol
** J **
- JSON
- JavaScript Object Notation
- JWK
- JSON Web Key
- JWKS
- JSON Web Key Set
- JWT
- JSON Web Token
** K **
- Kb
- Kilobyte
- Kbps
- Kilobits per second
- Kw
- Kilowatt
- Kwh
- Kilowatt‐hour
** L **
- L2CAP
- Logical Link Control and Adaptation Protocol
- LAN
- Local Area Network
- LEED
- Leadership in Energy and Environmental Design
- LoRa
- Long‐Range Wireless Protocol
- LoRaWAN
- Long‐Range Wide Area Network
- LTE
- Long Term Evolution
** M **
- MAC
- Medium Access Control
- MACsec
- MAC Layer Security, IEEE 802.1AE
- Mb
- Megabyte
- MBAP
- Modbus Application Protocol
- Mbps
- Megabits per second
- MHz
- Megahertz
- MIDAS
- Market Informed Demand Automation Server
- MIME
- Multimedia Internet Mail Extension
- MKA
- MACsec Key Agreement
- MQTT
- Message Queuing Telemetry Transport
- MRP
- Message Reliability Protocol
- mTLS
- Mutual Transport Layer Security
- MTU
- Maximum Transmission Unit
** N **
- NAK
- Negative...
| Erscheint lt. Verlag | 31.12.2024 |
|---|---|
| Sprache | englisch |
| Themenwelt | Technik ► Elektrotechnik / Energietechnik |
| Schlagworte | Building Energy Management Systems • energy control • grid-interactive efficient buildings • Information and Communication Technology (ICT) • IOT • Model Predictive Control • network layer protocols • smart home platforms |
| ISBN-10 | 1-394-20308-X / 139420308X |
| ISBN-13 | 978-1-394-20308-6 / 9781394203086 |
| Informationen gemäß Produktsicherheitsverordnung (GPSR) | |
| Haben Sie eine Frage zum Produkt? |
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