Toward the inclusion of end-to-end security in the OM2M platform

Patonico Simone; Nguyen Thanh-Long; Shabisha Placide; Braeken An; Steenhaut Kris

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Toward the inclusion of end-to-end security in the OM2M platform

机译：在OM2M平台中包含端到端安全

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The exponential growth in the number of Internet of things (IoT) devices and their potential in many applications in a vast number of domains fuelled the development of different IoT platforms, supported by big companies and industry groups. These platforms are able to provide reliable services to IoT devices and reduce the time to market for the targeted applications. Unfortunately, these proprietary solutions fragment the IoT market and hamper horizontal integration. The need to interoperate the different IoT platforms and communication protocols pushed the Standards Developing Organizations (SDOs) to the specification of a machine-to-machine (M2M) service layer, published as the oneM2M (OM2M) standard. Although the OM2M standard provides generic guidelines to implement security solutions which include authentication, authorization, confidentiality and data integrity, more efficient security schemes should be investigated when constrained IoT devices are concerned. This paper presents two main contributions. First, a CoAPS binding for the OM2M platform is provided that enables secure and reliable communication with constrained IoT devices. Second, a lightweight dynamic access control system is designed, developed and integrated in a OM2M-based architecture. It allows to dynamically grant or revoke access permission in an anonymous way to constrained IoT devices for controlling some actuators. From the experimental results, we can conclude that the computational complexity of the proposed security scheme is extremely low for the client device which requests data access. We show that a constrained IoT device establishes a trust relationship with the OM2M server in few seconds.

机译：在大量域中的许多应用程序中的互联网数量和潜力的指数增长促使由大公司和工业群体支持的不同物联网平台的发展。这些平台能够为IOT设备提供可靠的服务，并将时间减少到目标应用程序的市场。不幸的是，这些专有的解决方案将IOT市场分离和妨碍水平整合。需要互操作不同的IOT平台和通信协议将标准开发组织（SDO）推向机器到机器（M2M）服务层的规范，作为ONEM2M（OM2M）标准。虽然OM2M标准提供了通用指南，但是实现包括身份验证，授权，机密性和数据完整性的安全解决方案，但应在受限IOT设备所关注的情况下调查更有效的安全方案。本文提出了两个主要贡献。首先，提供了一种对OM2M平台的COAP结合，其能够与受限的物联网设备安全可靠地通信。其次，在基于OM2M的架构中设计，开发和集成了轻量级动态访问控制系统。它允许以匿名方式动态授予或撤消访问权限，以控制用于控制一些执行器的IOT设备。从实验结果来看，我们可以得出结论，对于请求数据访问的客户端设备，所提出的安全方案的计算复杂性极低。我们表明，在几秒钟内，约束的物联网设备与OM2M服务器建立了信任关系。

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来源
《Journal of supercomputing》 |2021年第4期|4056-4080|共25页
作者
Patonico Simone; Nguyen Thanh-Long; Shabisha Placide; Braeken An; Steenhaut Kris;
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作者单位

Vrije Univ Brussel Pl Laan 2 B-1050 Brussels Belgium|IMEC Kapeldreef 75 B-3001 Leuven Belgium;

Vrije Univ Brussel Pl Laan 2 B-1050 Brussels Belgium|IMEC Kapeldreef 75 B-3001 Leuven Belgium;

Vrije Univ Brussel Pl Laan 2 B-1050 Brussels Belgium|IMEC Kapeldreef 75 B-3001 Leuven Belgium;

Vrije Univ Brussel Pl Laan 2 B-1050 Brussels Belgium|IMEC Kapeldreef 75 B-3001 Leuven Belgium;

Vrije Univ Brussel Pl Laan 2 B-1050 Brussels Belgium|IMEC Kapeldreef 75 B-3001 Leuven Belgium;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
CoAPS; ECQV; Tinydtls; MicroECC; Scandium; OneM2M; interoperability; Authentication; Authorization;

机译：COAPS;ECQV;TINYDTLS;MICROCC;钪;onem2m;互操作性;认证;授权;

Toward the inclusion of end-to-end security in the OM2M platform

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