Development of PIR sensor-based security system and IoT-based esp-32 wrover cam module for monitoring military headquarters and vital objects

Penulis

  • Hero Benta Jatiyoso Universitas Pertahanan Republik Indonesia, Bogor, Indonesia
  • M. Farrel Riadi Universitas Pertahanan Republik Indonesia, Bogor, Indonesia
  • Abdurrosyid Atturoybi Universitas Pertahanan Republik Indonesia, Bogor, Indonesia
  • Adam Mardamsyah Universitas Pertahanan Republik Indonesia, Bogor, Indonesia
  • Hendrana Tjahjadi Universitas Pertahanan Republik Indonesia, Bogor, Indonesia

DOI:

https://doi.org/10.35335/mandiri.v14i1.437

Kata Kunci:

Security, IoT, LoRa, Real-time, Telegram

Abstrak

Military headquarters security requires advanced systems to detect intrusions and ensure real-time monitoring. This study proposes an IoT-integrated security system using PIR sensors and an ESP-32 WROVER Cam module, designed to enhance detection accuracy, automate alerts, and improve remote surveillance capabilities. The system integrates a PIR sensor for motion detection, an ESP-32 Cam for image capture, and IoT protocols for real-time data transmission via Telegram. A LoRa module extends communication range for large-scale military environments. Simulations tested response time, detection accuracy, and notification reliability under varying conditions. The system achieved a response time of 1.1–1.6 seconds, 100% buzzer activation for alarms, and consistent Telegram notification delivery. Compared to existing systems, its key innovation lies in combining low-cost hardware with IoT connectivity and LoRa-based long-range communication (up to 20–30 km), enabling efficient threat detection and remote interaction. This approach offers a scalable, energy-efficient solution for military security, outperforming traditional systems through real-time responsiveness, reliable alerts, and secure data transmission. The integration of IoT and LoRa addresses gaps in existing object detection systems, particularly in large-area surveillance.

Biografi Penulis

Hero Benta Jatiyoso, Universitas Pertahanan Republik Indonesia, Bogor, Indonesia

 

 

M. Farrel Riadi, Universitas Pertahanan Republik Indonesia, Bogor, Indonesia

 

 

 

Abdurrosyid Atturoybi, Universitas Pertahanan Republik Indonesia, Bogor, Indonesia

 

 

 

Adam Mardamsyah, Universitas Pertahanan Republik Indonesia, Bogor, Indonesia

 

 

Hendrana Tjahjadi, Universitas Pertahanan Republik Indonesia, Bogor, Indonesia

 

 

Referensi

Alam, M., Islam, Md. M., Nayan, N. M., & Uddin, J. (2024). An IoT Based Real-Time Environmental Monitoring System for Developing Areas. Journal of Advanced Research in Applied Sciences and Engineering Technology, 52(1), 106–121. https://doi.org/10.37934/araset.52.1.106121

Arduino. (2022). ESP32: Getting started with camera and LoRa. Arduino Documentation. Retrieved from https://www.arduino.cc/en/Guide/ESP32-Camera

Band, S., Javeri, R., Kale, V., Morope, A., & Rudrawar, S. (2022). Military Surveillance System Based on IOT. 1–6. https://doi.org/10.1109/ICERECT56837.2022.10059921

Dhanasekar, J. J., Niranjana, M. I., Suresh, G. U., & Surya, S. (2023). Hazardous Area Monitoring System in Industries Using Lora Module. 1, 2062–2066. https://doi.org/10.1109/ICACCS57279.2023.10113005

Dsa, R. J., & Rao, B. (2024). LoRa-Powered IoT Messaging System for Internet-Free Communication. International Journal for Research in Applied Science and Engineering Technology. https://doi.org/10.22214/ijraset.2024.60126

Espressif Systems. (2021). ESP32-WROOM-32 datasheet. Espressif Systems. Retrieved from https://www.espressif.com/en/products/modules/esp32-wroom-32/overview

Gupta, M., & Sharma, R. (2021). Advanced embedded systems with ESP32: Applications and case studies. Springer.

Hossain, A., Roy, H. S., Khondakar, Md. F. K., Sarowar, Md. H., & Hossainline, Md. A. (2021). Design and Implementation of an IoT Based Firefighting and Affected Area Monitoring Robot. https://doi.org/10.1109/ICREST51555.2021.9331064

Jiang, T. (2021). Low-power wide-area network (LPWAN) design with LoRa and ESP32. IEEE Access, 9, 65590-65602. https://doi.org/10.1109/ACCESS.2021.3072901

K., P. (2024). IoT Based Transformer Monitoring System using ESP-32. International Journal For Science Technology And Engineering, 12(5), 4597–4602. https://doi.org/10.22214/ijraset.2024.62643

Kalbande, S. (2024). PicPatrolling: Smart Surveillance with ESP32CAM. International Journal For Science Technology And Engineering, 12(10), 704–708. https://doi.org/10.22214/ijraset.2024.64667

Kufakunesu, R., Myburgh, H. C., & De Freitas, A. (2025). The internet of battle things: a survey on communication challenges and recent solutions. Discover Internet of Things, 5(1). https://doi.org/10.1007/s43926-025-00093-w

Kumar, N. K., & Anil, K. (2022). Application of Internet of Things in image processing. In K. Booth & S. Smith (Eds.), Proceedings from research on IoT applications. Retrieved from https://www.researchgate.net/publication/360081113

Kurniawan, H., & Hariyanto, S. (2023). Designing Home Security With Esp32-Cam and IoT-Based Alarm Notification Using Telegram. Bit-Tech, 6(2), 95–102. https://doi.org/10.32877/bt.v6i2.932

Liu, W., & CHEN, G. (2024). Towards Optimal Image Processing-based Internet of Things Monitoring Approaches for Sustainable Cities. International Journal of Advanced Computer Science and Applications, 15(5). https://doi.org/10.14569/ijacsa.2024.01505115

Magableh, M., Marie, Z., Mohamed, R. R., Ibrahim, M. H. B., Jusoh, J. A., & Kumar, R. (2023). Using Arduino Iot Modules As A Low Cost Environmental Research Monitoring System. 1–6. https://doi.org/10.1109/cset58993.2023.10346624

Mouser Electronics. (2021). LoRa technology and its applications. Mouser Electronics. Retrieved from https://www.mouser.com/technology/lorawan

Optimization Algorithms for Real-Time Image Processing in IoT Networks. (2024). https://doi.org/10.46632/daai/3/1/24

Pióro, Ł., Sychowiec, J., Kanciak, K., & Zieliński, Z. (2024). Application of Attribute-Based Encryption in Military Internet of Things Environment. https://doi.org/10.3390/s24185863

Podržaj, P., Jenko, M., Selak, L., Škulj, G., Rihar, L., Vrabič, R., Bračun, D., Berlec, T., & Kozjek, D. (2023). The Applicability of Arduino Microcontroller with a LoRa Shield as an Element in IoT. https://doi.org/10.5121/csit.2023.130903

Rajora, R., Rajora, A., Sharma, B., Aggarwal, P., & Thapliyal, S. (2024). The Impact of the IoT on Military Operations: A Study of Challenges, Applications, and Future Prospects. https://doi.org/10.1109/iciptm59628.2024.10563671

Reyes, M. (2020). Programming and interfacing the ESP32 with LoRa modules. Arduino Projects Journal, 15(3), 98-112. https://doi.org/10.1007/s11042-020-08988-w

S, G., R, A., B, P., A, K., V A, V., & K, L. (2023). Design and Development of IoT Camera with CHATBOT for Domestic Surveillance. 1–5. https://doi.org/10.1109/iccebs58601.2023.10448981

Semtech Corporation. (2021). LoRa® technology: A technical overview. Semtech Corporation. Retrieved from https://www.semtech.com/products/wireless-rf/lora

Szymoniak, S., Piątkowski, J., & Kurkowski, M. (2025). Defense and Security Mechanisms in the Internet of Things: A Review. Applied Sciences, 15(2), 499. https://doi.org/10.3390/app15020499

Tirto, D., & Sukendro, A. (2023). Network Centric Operations In Supporting Tni Operations To Dealing With Irregular Warfare. International Journal of Progressive Sciences and Technologies. https://doi.org/10.52155/ijpsat.v38.1.5239

Unduhan

Diterbitkan

2025-07-27

Cara Mengutip

Jatiyoso, H. B., Riadi, M. F., Atturoybi, A., Mardamsyah, A., & Tjahjadi, H. (2025). Development of PIR sensor-based security system and IoT-based esp-32 wrover cam module for monitoring military headquarters and vital objects. Jurnal Mandiri IT, 14(1), 191–197. https://doi.org/10.35335/mandiri.v14i1.437

Terbitan

Vol 14 No 1 (2025): July: Computer Science and Field.

Bagian

Articles

Lisensi

Hak Cipta (c) 2025 Hero Benta Jatiyoso, Farrel, Rosyid, Adam, Hendrana

Creative Commons License

Artikel ini berlisensi Creative Commons Attribution-NonCommercial 4.0 International License.

Artikel paling banyak dibaca berdasarkan penulis yang sama