Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case

Jean Paul Sebastian Piest; Willem Datema; Danniar Firdausy; Harry Bastiaansen

doi:10.1007/978-3-031-54712-6_3

Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case

Jean Paul Sebastian Piest
, Willem Datema
, Danniar Firdausy
, Harry Bastiaansen

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

4 Downloads (Pure)

Abstract

Earlier work proposed a reference use case and data space architecture for smart truck parking and positioned future use of federated learning for competition-, privacy sensitive data sharing. However, there is limited research regarding the deployment of federated learning in data spaces. Extending earlier work, this paper documents the results of experimental development of a federated learning model for smart truck parking and its instantiation in a data space infrastructure. Two iterations were carried out to assess the development of a federated learning model and deployment in a data space environment for the smart truck parking use case. First, a data space infrastructure was instantiated, containing a federated learning orchestrator, connectors with data apps, and a metadata broker. Second, a prototype was developed on top of the metadata broker to support the provisioning of the required data space components to the involved participants. Taken together, the experimental development related to the smart truck parking case provides initial support for the suitability of federated learning in a data space environment and contributes to better understanding of the potential use, technical feasibility, required efforts, and practical implications. From a practical perspective, the study provides interested scholars and software developers access to a reference implementation. The current study is limited to one federated learning model and deployment in a small data space environment. Future work may contribute to comparing multiple federated learning models and evaluation in an operational data space.

Original language	English
Title of host publication	Enterprise Design, Operations, and Computing. EDOC 2023 Workshops - IDAMS, iRESEARCH, MIDas4CS, SoEA4EE, EDOC Forum, Demonstrations Track and Doctoral Consortium, 2023, Revised Selected Papers
Editors	Tiago Prince Sales, Sybren de Kinderen, Henderik A. Proper, Luise Pufahl, Dimka Karastoyanova, Marten van Sinderen
Publisher	Springer
Pages	39-59
Number of pages	21
ISBN (Electronic)	978-3-031-54712-6
ISBN (Print)	978-3-031-54711-9
DOIs	https://doi.org/10.1007/978-3-031-54712-6_3
Publication status	Published - 2 Mar 2024
Event	27th IEEE International Enterprise Distributed Object Computing Conference, EDOC 2023 - the Bernoulli Institute at the University of Groningen, Groningen, Netherlands Duration: 30 Oct 2023 → 3 Nov 2023 Conference number: 27 https://www.rug.nl/research/bernoulli/conf/

Publication series

Name	Lecture Notes in Business Information Processing
Publisher	Springer
Volume	498
ISSN (Print)	1865-1348
ISSN (Electronic)	1865-1356

Conference

Conference	27th IEEE International Enterprise Distributed Object Computing Conference, EDOC 2023
Abbreviated title	EDOC 2023
Country/Territory	Netherlands
City	Groningen
Period	30/10/23 → 3/11/23
Internet address	https://www.rug.nl/research/bernoulli/conf/

Keywords

Federated Learning (FL)
Data spaces
Smart truck parking

Access to Document

10.1007/978-3-031-54712-6_3

ArticleFinal published version, 1.6 MBLicence: Taverne

Cite this

Piest, J. P. S., Datema, W., Firdausy, D., & Bastiaansen, H. (2024). Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case. In T. P. Sales, S. de Kinderen, H. A. Proper, L. Pufahl, D. Karastoyanova, & M. van Sinderen (Eds.), Enterprise Design, Operations, and Computing. EDOC 2023 Workshops - IDAMS, iRESEARCH, MIDas4CS, SoEA4EE, EDOC Forum, Demonstrations Track and Doctoral Consortium, 2023, Revised Selected Papers (pp. 39-59). (Lecture Notes in Business Information Processing; Vol. 498). Springer. https://doi.org/10.1007/978-3-031-54712-6_3

Piest, Jean Paul Sebastian ; Datema, Willem ; Firdausy, Danniar et al. / Developing and Deploying Federated Learning Models in Data Spaces : Smart Truck Parking Reference Use Case. Enterprise Design, Operations, and Computing. EDOC 2023 Workshops - IDAMS, iRESEARCH, MIDas4CS, SoEA4EE, EDOC Forum, Demonstrations Track and Doctoral Consortium, 2023, Revised Selected Papers. editor / Tiago Prince Sales ; Sybren de Kinderen ; Henderik A. Proper ; Luise Pufahl ; Dimka Karastoyanova ; Marten van Sinderen. Springer, 2024. pp. 39-59 (Lecture Notes in Business Information Processing).

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title = "Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case",

abstract = "Earlier work proposed a reference use case and data space architecture for smart truck parking and positioned future use of federated learning for competition-, privacy sensitive data sharing. However, there is limited research regarding the deployment of federated learning in data spaces. Extending earlier work, this paper documents the results of experimental development of a federated learning model for smart truck parking and its instantiation in a data space infrastructure. Two iterations were carried out to assess the development of a federated learning model and deployment in a data space environment for the smart truck parking use case. First, a data space infrastructure was instantiated, containing a federated learning orchestrator, connectors with data apps, and a metadata broker. Second, a prototype was developed on top of the metadata broker to support the provisioning of the required data space components to the involved participants. Taken together, the experimental development related to the smart truck parking case provides initial support for the suitability of federated learning in a data space environment and contributes to better understanding of the potential use, technical feasibility, required efforts, and practical implications. From a practical perspective, the study provides interested scholars and software developers access to a reference implementation. The current study is limited to one federated learning model and deployment in a small data space environment. Future work may contribute to comparing multiple federated learning models and evaluation in an operational data space.",

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Piest, JPS, Datema, W, Firdausy, D & Bastiaansen, H 2024, Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case. in TP Sales, S de Kinderen, HA Proper, L Pufahl, D Karastoyanova & M van Sinderen (eds), Enterprise Design, Operations, and Computing. EDOC 2023 Workshops - IDAMS, iRESEARCH, MIDas4CS, SoEA4EE, EDOC Forum, Demonstrations Track and Doctoral Consortium, 2023, Revised Selected Papers. Lecture Notes in Business Information Processing, vol. 498, Springer, pp. 39-59, 27th IEEE International Enterprise Distributed Object Computing Conference, EDOC 2023, Groningen, Netherlands, 30/10/23. https://doi.org/10.1007/978-3-031-54712-6_3

Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case. / Piest, Jean Paul Sebastian; Datema, Willem; Firdausy, Danniar et al.
Enterprise Design, Operations, and Computing. EDOC 2023 Workshops - IDAMS, iRESEARCH, MIDas4CS, SoEA4EE, EDOC Forum, Demonstrations Track and Doctoral Consortium, 2023, Revised Selected Papers. ed. / Tiago Prince Sales; Sybren de Kinderen; Henderik A. Proper; Luise Pufahl; Dimka Karastoyanova; Marten van Sinderen. Springer, 2024. p. 39-59 (Lecture Notes in Business Information Processing; Vol. 498).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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AU - Datema, Willem

AU - Firdausy, Danniar

AU - Bastiaansen, Harry

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N2 - Earlier work proposed a reference use case and data space architecture for smart truck parking and positioned future use of federated learning for competition-, privacy sensitive data sharing. However, there is limited research regarding the deployment of federated learning in data spaces. Extending earlier work, this paper documents the results of experimental development of a federated learning model for smart truck parking and its instantiation in a data space infrastructure. Two iterations were carried out to assess the development of a federated learning model and deployment in a data space environment for the smart truck parking use case. First, a data space infrastructure was instantiated, containing a federated learning orchestrator, connectors with data apps, and a metadata broker. Second, a prototype was developed on top of the metadata broker to support the provisioning of the required data space components to the involved participants. Taken together, the experimental development related to the smart truck parking case provides initial support for the suitability of federated learning in a data space environment and contributes to better understanding of the potential use, technical feasibility, required efforts, and practical implications. From a practical perspective, the study provides interested scholars and software developers access to a reference implementation. The current study is limited to one federated learning model and deployment in a small data space environment. Future work may contribute to comparing multiple federated learning models and evaluation in an operational data space.

AB - Earlier work proposed a reference use case and data space architecture for smart truck parking and positioned future use of federated learning for competition-, privacy sensitive data sharing. However, there is limited research regarding the deployment of federated learning in data spaces. Extending earlier work, this paper documents the results of experimental development of a federated learning model for smart truck parking and its instantiation in a data space infrastructure. Two iterations were carried out to assess the development of a federated learning model and deployment in a data space environment for the smart truck parking use case. First, a data space infrastructure was instantiated, containing a federated learning orchestrator, connectors with data apps, and a metadata broker. Second, a prototype was developed on top of the metadata broker to support the provisioning of the required data space components to the involved participants. Taken together, the experimental development related to the smart truck parking case provides initial support for the suitability of federated learning in a data space environment and contributes to better understanding of the potential use, technical feasibility, required efforts, and practical implications. From a practical perspective, the study provides interested scholars and software developers access to a reference implementation. The current study is limited to one federated learning model and deployment in a small data space environment. Future work may contribute to comparing multiple federated learning models and evaluation in an operational data space.

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A2 - Sales, Tiago Prince

A2 - de Kinderen, Sybren

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Piest JPS, Datema W, Firdausy D, Bastiaansen H. Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case. In Sales TP, de Kinderen S, Proper HA, Pufahl L, Karastoyanova D, van Sinderen M, editors, Enterprise Design, Operations, and Computing. EDOC 2023 Workshops - IDAMS, iRESEARCH, MIDas4CS, SoEA4EE, EDOC Forum, Demonstrations Track and Doctoral Consortium, 2023, Revised Selected Papers. Springer. 2024. p. 39-59. (Lecture Notes in Business Information Processing). doi: 10.1007/978-3-031-54712-6_3

Developing and Deploying Federated Learning Models in Data Spaces: Smart Truck Parking Reference Use Case

Abstract

Publication series

Conference

Keywords

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