Abstract
Abstract The use of wireless technologies for critical surveillance and home automation introduces a number of opportunities as well as technological challenges. New emerging technologies give the opportunity to exploit the full potential of the internet of things paradigm by augmenting existing wired installations with smart wireless architectures. This work gives an overview of requirements, characteristics, and challenges of wireless home automation networks with special focus on intrusion detection systems. The proposed wireless network is based on several sensors that are deployed over a monitored area for detecting possible risky situations and triggering appropriate actions in response. The network needs to support critical traffic patterns with different characteristics and quality constraints. Namely, it should provide a periodic low-power monitoring service and, in case of intrusion detection, a real-time alarm propagation mechanism over inherently unreliable wireless links subject to fluctuations of the signal power. Following the guidelines introduced by recent standardization, this paper proposes the design of a wireless network prototype at 868 MHz which is able to satisfy the specifications of typical intrusion detection applications. A proprietary medium access control is developed based on the low-power SimpliciTI radio stack (Texas Instruments Incorporated, San Diego, CA, USA). Network performance is assessed by experimental measurements using a test-bed in an indoor office environment with severe multipath and nonline-of-sight propagation conditions. The measurement campaigns highlight the potential of the sub-GHz technology for cable replacing.
Highlights
Wireless sensor network (WSN) technologies are expected to be integrated into the so called internet of things, allowing for the global interconnection of heterogeneous smart objects with advanced functionality
Based on the results of this experimental analysis, we focus on the subGHz radio technology and consider the implementation of the proposed medium access control (MAC) sub-layer on radio modules operating over the 868-MHz ISM band
Grade 1 service is characterized by a duty cycle larger than 10% measured over 240 min, duty cycle for grade 2 is lower than 5% over a period of 240 min, while duty cycles for grades 3 and 4 are lower than, respectively, 10% and 1% measured over a cycle time period of 100 s
Summary
Wireless sensor network (WSN) technologies are expected to be integrated into the so called internet of things, allowing for the global interconnection of heterogeneous smart objects with advanced functionality. Recent advances of microcontroller design and radio technologies have opened the way to an emerging category of wireless network-enabled sensors that serve as smart agents equipped with a low-power dedicated high-performance microcontroller and a large memory space. A key element for WHAN design and implementation is to provide efficient hardware-software supporting infrastructures and middleware platforms to enable consistent and cost-effective interactions among the diverse actors participating to the smart space environment Motivated by this vision, in this paper, we consider the design of the medium access control (MAC) for a wireless network supporting critical home automation services, with special focus on indoor surveillance and intrusion detection. The analysis of battery consumption, wireless connectivity, and robustness shows that the proposed system is a promising solution for surveillance and intrusion detection applications
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