Jump to content

TALQ Protocol

From Wikipedia, the free encyclopedia
TALQ Protocol
Developed byTALQ Consortium
Introduced2012
IndustrySmart City, IoT
Websitetalq-consortium.org

The TALQ Protocol is an interface standard for smart city device networks, enabling interoperability between central management software (CMS) and outdoor device networks (ODN) from different vendors.

TALQ Protocol

[edit]

The TALQ Smart City Protocol (TALQ Protocol/TALQ Specification) is a communication protocol enabling the connection of various different outdoor device networks (ODN) with a central management software (CMS). The protocol is defined with the OpenAPI Specification, it follows the RESTful approach with JSON data and is built on TCP/IP and HTTPS.[1]

It was originally a protocol for smart street lighting, but later expanded to include other smart city applications.[2] The protocol is considered a global standard for smart city/IoT[1][3] and the authority of the TALQ standard has been acknowledged internationally.[4]

History

[edit]

TALQ was created in 2012 to address and solve issues within outdoor lighting systems; unifying the languages used between the physical devices (e.g.: lamp post, luminaire controller), and the CMS, as different manufacturers used different protocols within outdoor lighting networks (OLN).[2][4][5] TALQ introduced the TALQ Bridge (later called Gateway) which identifies the OLN and translates the information to the CMS.[6]

Later, in 2017, the objective broadened to include other smart city applications as well.[2][4][5] In 2021, the TALQ Protocol was released as a public resource on GitHub.[7]

Development and operating principle

[edit]

The TALQ Gateway represents the ODN data and translates this information into messages that can be understood by the CMS. These messages are created as per the TALQ data model and expressed in JSON.[6]

TALQ is network technology-agnostic within the ODN, it provides a common interface represented by the Gateway and the CMS. The functionality of a physical device, like a luminaire controller for a streetlamp, is represented by a set of functions with associated attributes and events. An exemplary function for a luminaire controller is the LampActuator function, in which the commands and events associated attributes are contained. The TALQ Protocol provides several such functions. When designing a new physical device, these functions can be used, or new functions can be designed by extending previously existing ones.[5][6]

Those vendor-specific functions enable differentiation between manufacturers.[4]

Features

[edit]

This protocol is not only limited to lighting, but can also be used for other smart city applications like e.g.[2] waste and parking space management, traffic monitoring, energy management or environmental data collection.[8] The supported features include, among others, scheduling, sensor-based control, configuration, monitoring, asset management, event handling, energy savings, failure notifications, and maintenance optimization.[1]

When establishing smart city applications like traffic monitoring, waste management, or smart street lighting, the TALQ standard enables cities and utilities to avoid vendor lock-in by having the choice among various compatible systems.[9]

TALQ Consortium

[edit]

The TALQ Consortium was founded in 2012 by the six lighting companies Philips (since renamed Signify N.V.), Zumtobel, Schréder,[10] Harvard Engineering, Streetlight Vision and Kingsun.[5][4][11] In the following years, further companies, such as Osram and GE Lighting, joined the consortium,[6][12] and in 2021, the consortium reached 50 members.[12] The objective of the consortium was to advance in the outdoor lighting market by creating a standardized communication protocol for smart street lighting.[1][6]

The consortium's areas of responsibility are the managing and the further evolution of the TALQ Smart City Protocol. This includes delivering and governing the interface specification, as well as managing its promotion and approving the compliance with a certification procedure.[4]

In its certification process, the consortium evaluates manufacturers' adherence to the TALQ interface standard for both completeness and correctness, utilizing the online TALQ certification tool (TCT) to ensure robust implementation.[13] To use the TCT and receive certifications, vendors have to join the consortium.[8] Manufacturers of products that successfully integrated the standard have been approved and officially certified by the consortium since 2017.[13]

The consortium is a member program of the IEEE Industry Standards and Technology Organization (IEEE-ISTO), a non-profit organization for the development of standards within technology industry consortia, trade associations, and other similar entities.[14]

References

[edit]
  1. ^ a b c d Patel, Maulin; Mukherjee, Satyen (2016), Karlicek, Robert; Sun, Ching-Cherng; Zissis, Georges; Ma, Ruiqing (eds.), "Lighting Control Protocols and Standards", Handbook of Advanced Lighting Technology, Cham: Springer International Publishing, pp. 20–24, doi:10.1007/978-3-319-00295-8_31-1, ISBN 978-3-319-00295-8, retrieved 2024-02-21.
  2. ^ a b c d Sivakumar; Sandhya Devi; Ashwin; Rajan Singaravel; Buvanesswaran (2022). "Protocol Design for Earthquake Alert and Evacuation in Smart Buildings". In Rani, Shalli; Sai, Vyasa; Maheswar, R. (eds.). IoT and WSN based Smart Cities: A Machine Learning Perspective. EAI/Springer Innovations in Communication and Computing. Cham: Springer International Publishing. p. 11. doi:10.1007/978-3-030-84182-9. ISBN 978-3-030-84181-2.
  3. ^ Joosting, Jean-Pierre (2022-04-21). "First Plug-and-Play IoT LED streetlight controller". eeNews Europe. Retrieved 2024-02-21.
  4. ^ a b c d e f Liang, Jin; Ku, Nim Chung (2014). "LED Roadway Lighting Control Scheme Based on TALQ Protocol". Advanced Materials Research. 1044–1045: 1541–1544. doi:10.4028/www.scientific.net/AMR.1044-1045.1541. ISSN 1662-8985.
  5. ^ a b c d Liang, Jin; Pan, Nan Quan (2015). "New soft technologies in international outdoor lighting TALQ interface protocol". In Li, Bai; Lipo, Wang; Liangshan, Shao; Jinguang, Sun; Zhiyong, Tao; Sen, Lin (eds.). 2015 8th International Conference on Biomedical Engineering and Informatics (BMEI). Institute of Electrical and Electronics Engineers. pp. 599–603. doi:10.1109/BMEI.2015.7401574. ISBN 978-1-5090-0022-7.
  6. ^ a b c d e Liang, Jin; Donghui, Jia (2016). "Logical model of outdoor lighting soft interface TALQ protocol". In Wang, Yeping; Zhao, Jianhua (eds.). Advances in Energy, Environment and Materials Science. Baco Raton London New York Leiden: CRC Press. pp. 845–848. ISBN 978-1-138-02931-6.
  7. ^ Say, Mark (2021-07-19). "TALG opens up smart city software protocol". UK Authority. Retrieved 2024-02-21.
  8. ^ a b Meadows, Carrie (2022-02-18). "TALQ publishes v2.4.0 of its Smart City software protocol". LEDs Magazine. Retrieved 2024-02-21.
  9. ^ "Talq certifications enable more interoperability in cities". Smart Cities World. 2024-01-22. Retrieved 2024-02-21.
  10. ^ "New consortium to drive standardization of a management software interface for managing outdoor lighting networks". Signify. 2012-06-28. Retrieved 2024-04-01.
  11. ^ Davis, Shannon (2024-02-12). "Global Solid State Lighting Market Size is Estimated to Reach USD 120.12 billion by 2031". Semiconductor Digest. Retrieved 2024-02-21.
  12. ^ a b "Smart city protocol reaches members' milestone". Smart Cities World. 2021-06-07. Retrieved 2024-02-21.
  13. ^ a b "TALQ Increases Security for its Certification Process". Lighting Controls Association. 2023-10-20. Retrieved 2024-02-21.
  14. ^ "TALQ Consortium". IEEE Industry Standards and Technology Organization. Retrieved 2024-03-14.
[edit]