Abstract

One of the first standards in the wireless sensor networks domain, WirelessHART (HART (Highway Addressable Remote Transducer)), was introduced to address industrial process automation and control requirements. This standard can be used as a reference point to evaluate other wireless protocols in the domain of industrial monitoring and control. This makes it worthwhile to set up a reliable WirelessHART simulator in order to achieve that reference point in a relatively easy manner. Moreover, it offers an alternative to expensive testbeds for testing and evaluating the performance of WirelessHART. This paper explains our implementation of WirelessHART in the NS-2 network simulator. According to our knowledge, this is the first implementation that supports the WirelessHART network manager, as well as the whole stack (all OSI (Open Systems Interconnection model) layers) of the WirelessHART standard. It also explains our effort to validate the correctness of our implementation, namely through the validation of the implementation of the WirelessHART stack protocol and of the network manager. We use sniffed traffic from a real WirelessHART testbed installed in the Idrolab plant for these validations. This confirms the validity of our simulator. Empirical analysis shows that the simulated results are nearly comparable to the results obtained from real networks. We also demonstrate the versatility and usability of our implementation by providing some further evaluation results in diverse scenarios. For example, we evaluate the performance of the WirelessHART network by applying incremental interference in a multi-hop network.

Highlights

  • Despite the advancement of the realm of wireless sensor networks, their adoption by the industry for factory automation and process control applications remained limited

  • We present the implementation of the WirelessHART simulator, which adds a security layer to provide secure and reliable communications

  • To validate the WirelessHART stack implemented in the simulator, the simulated Network manager (NM) is replaced by the real NM

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Summary

Introduction

Despite the advancement of the realm of wireless sensor networks, their adoption by the industry for factory automation and process control applications remained limited. Using a self-organizing and self-healing mesh network architecture, it establishes a secure and reliable wireless communication protocol It is backward compatible with the widely-used wired HART Being the first open standard, WirelessHART can be used as a reference point to evaluate other wireless protocols in the industrial domain. This can be conveniently achieved by implementing the WirelessHART protocol in a network simulator.

Background and Related Work
WirelessHART Architecture
WirelessHART Implementation
Data Link Layer
Network Layer
Security Sublayer
Transport Layer
Application Layer
WirelessHART Network Management Algorithm
Joining Procedure
Graph and Route Definition in the Network
Communication Scheduling and Channel Management
Service Request Procedure
WirelessHART Validation
Real World Experimental Setup
Addressing Security Aspects
Simulation Model and Parameters
Validating the WirelessHART Stack
Validating the WirelessHART Network Manager
Experimental Analysis of Real and Simulated Networks
Reliability in the Network
Communication Schedules and Network Throughput
Real-Time Guarantee
Energy Consumption in the Network
Evaluating Management Efficiency
Performance During Node Joining
Summary
Experimental Analysis of a Multi-Hop Mesh Network in the Simulator
Node and Link Failure in the Network
Data Delivery Ratio in Case of Lossy Network
Feasibility Study of WirelessHART in Different Application Scenarios
Evaluating Other Wireless Protocols or WirelessHART Itself
Conclusion and Future Work

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