Authors :
Amey Chapde; Amaan Shaikh; Mehran Shaikh; Sohail Khan; Dr. Uma Bhawsar
Volume/Issue :
Volume 10 - 2025, Issue 2 - February
Google Scholar :
https://tinyurl.com/yu3j3vt7
DOI :
https://doi.org/10.38124/ijisrt/25feb654
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
Bridge infrastructure is vital for transportation networks, ensuring the smooth flow of goods and people. However,
aging infrastructure and environmental factors pose significant challenges to bridge safety and maintenance. To address
these challenges, an advanced Bridge Health Monitoring System (BHMS) is proposed.
This system integrates various sensing technologies, data analytics, and communication protocols to continuously
assess the structural health of bridges in real-time. It employs a multi-tiered approach, incorporating both physical and
digital monitoring techniques to capture a comprehensive understanding of bridge behavior.
The Bridge Health Monitoring System (BHMS) is an innovative solution designed to enhance the safety and longevity
of bridge infrastructure. By integrating advanced sensor networks, real-time data processing, and predictive modeling, the
system continuously assesses structural integrity and detects anomalies. Key features include remote monitoring
capabilities, compatibility with existing bridge management systems, and robust cybersecurity measures to protect
sensitive data. The BHMS provides actionable insights that enable proactive maintenance, optimize schedules, and
improve decision-making for bridge operators. Ultimately, it offers a cost-effective and scalable approach to address the
challenges of aging infrastructure, ensuring safer transportation networks and extending the lifespan of vital bridges.
References :
- Piervincenzo Rizzo and Alireza Enshaeian, (2021) “Challenges in Bridge health Monitoring”,MDPI Journal,https://www.mdpi.com/journal/sensors.
- Ekin Ozer and Rolands Kromanis, (2024) “Smartphone prospects in bridge structural health monitoring”,MDPI Journal https://www.mdpi.com/journal/sensors
- Mohammad Moravvej and Mamdouh El Badry,(2024) “Free vibration – base damage identification techniques for bridge structural health monitoring. MDPI Journal, https://www.mdpi.com/journal/sensors.
- Aishwarya Bhondave, Aakansha Gaikwad, Unnati Nichite and Shivani Patil (2021) “A Survey on bridge health monitoring. International Research Jounal of Engineering Technology(IRJET),ww.irjet.net.
- Zhihang Deng, Minshui Huang and Jianwei Zhang (2023) , “The current development of structural monitoring for bridges,MDPI journal,https://www.mdpi.com/journal/buildings. https://portfolio.cept.ac.in/2023/M/ft/industry-4-0-in-future-construction-technology-ct2028-monsoon-2023/the-bridge-health-monitoring-system-4-o-monsoon-2023-uct22192 https://www.aendt.com/acoustic/solutions/s2/?gad_source=1&gbraid=0AAAAADBMUbldR3iPZ0WzjNZWqSKpYRvxf&gclid=EAIaIQobChMIrIDlrNCSiQMVu6ZmAh0hNSfgEAAYASAA EgJyzPD_BwE
Bridge infrastructure is vital for transportation networks, ensuring the smooth flow of goods and people. However,
aging infrastructure and environmental factors pose significant challenges to bridge safety and maintenance. To address
these challenges, an advanced Bridge Health Monitoring System (BHMS) is proposed.
This system integrates various sensing technologies, data analytics, and communication protocols to continuously
assess the structural health of bridges in real-time. It employs a multi-tiered approach, incorporating both physical and
digital monitoring techniques to capture a comprehensive understanding of bridge behavior.
The Bridge Health Monitoring System (BHMS) is an innovative solution designed to enhance the safety and longevity
of bridge infrastructure. By integrating advanced sensor networks, real-time data processing, and predictive modeling, the
system continuously assesses structural integrity and detects anomalies. Key features include remote monitoring
capabilities, compatibility with existing bridge management systems, and robust cybersecurity measures to protect
sensitive data. The BHMS provides actionable insights that enable proactive maintenance, optimize schedules, and
improve decision-making for bridge operators. Ultimately, it offers a cost-effective and scalable approach to address the
challenges of aging infrastructure, ensuring safer transportation networks and extending the lifespan of vital bridges.
