PRE2023 3 Group10: Difference between revisions

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|They made an autonomous firefighting robot which used infrared and ultrasonic sensors to navigate and a flame sensor to detect fires.
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|https://ieeexplore.ieee.org/abstract/document/7251507?casa_token=MwygfhklafcAAAAA:EwxidirCpXeSbDYbQqz9b7b8V60N-BE1MAt0QVw4qqOw3jmN1ri3Dmxmlft5fPkoAU5GYCCv-g
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Revision as of 16:51, 16 February 2024

Robot for saving victims in a fire

Group members
Name Student number Email Study
Dimitrios Adaos 1712926 d.adaos@student.tue.nl Computer Science and Engineering
Wiliam Dokov 1666037 w.w.dokov@student.tue.nl Computer Science and Engineering
Kwan Wa Lam 1608681 k.w.lam@student.tue.nl Psychology and Technology
Kamiel Muller 1825941 k.a.muller@student.tue.nl Chemical Engineering and Chemistry
Georgi Nihrizov 1693395 g.nihrizov@student.tue.nl Computer Science and Engineering
Twan Verhagen 1832735 t.verhagen@student.tue.nl Computer Science and Engineering

Research papers

  1. A Victims Detection Approach for Burning Building Sites Using Convolutional Neural Networks https://ieeexplore.ieee.org/abstract/document/9031275
Title Summary Link
A Victims Detection Approach for Burning Building Sites Using Convolutional Neural Networks They trained a convolutional neural network to detect people and pets in thermal IR, images. They gathered their own dataset to train the network. The network results were pretty accurate. https://ieeexplore.ieee.org/abstract/document/9031275
Early Warning Embedded System of Dangerous Temperature Using Single exponential smoothing for Firefighters Safety Proposes to add a temperature sensor to a firefighter's suit which will warn firefighters that they are in a very hot place > 200 C. https://shorturl.at/bcGJ2
A method to accelerate the rescue of fire-stricken victims

Zheng-Ting Lin, Pei-Hsuan Tsai, Expert Systems with Applications, Volume 238, Part E, 2024, 122186, ISSN 0957-4174

https://www.sciencedirect.com/science/article/pii/S095741742302688X
The role of robots in firefighting

Bogue, R. (2021), Industrial Robot, Vol. 48 No. 2, pp. 174-178.

https://www.emerald.com/insight/content/doi/10.1108/IR-10-2020-0222/full/html
Evaluation of a Sensor System for Detecting HumansTrapped under Rubble: A Pilot Study

Zhang D, Sessa S, Kasai R, Cosentino S, Giacomo C, Mochida Y, Yamada H, Guarnieri M, Takanishi A. Sensors. 2018; 18(3):852.

https://doi.org/10.3390/s18030852
A fire reconnaissance robot based on slam position, thermal imaging technologies, and AR display

Li S, Feng C, Niu Y, Shi L, Wu Z, Song H. Sensors. 2019; 19(22):5036.

https://doi.org/10.3390/s19225036
Design of intelligent fire-fighting robot based on multi-sensor fusion and experimental study on fire scene patrol

Shuo Zhang, Jiantao Yao, Ruochao Wang, Zisheng Liu, Chenhao Ma, Yingbin Wang, Yongsheng Zhao, Robotics and Autonomous Systems, Volume 154, 2022, 104122, ISSN 0921-8890,

https://doi.org/10.1016/j.robot.2022.104122
Firefighting robot with deep learning and machine vision Made a fire fighting robot which is capable of extinguishing fires caused by electric appliances using a deep learning and machine vision. https://link.springer.com/article/10.1007/s00521-021-06537-y
An autonomous firefighting robot They made an autonomous firefighting robot which used infrared and ultrasonic sensors to navigate and a flame sensor to detect fires. https://ieeexplore.ieee.org/abstract/document/7251507?casa_token=MwygfhklafcAAAAA:EwxidirCpXeSbDYbQqz9b7b8V60N-BE1MAt0QVw4qqOw3jmN1ri3Dmxmlft5fPkoAU5GYCCv-g
Real Time Victim Detection in Smoky Environments with Mobile Robot and Multi-sensor Unit Using Deep Learning https://link.springer.com/chapter/10.1007/978-3-031-26889-2_32
Thermal, Multispectral, and RGB Vision Systems Analysis for Victim Detection in SAR Robotics https://www.mdpi.com/2076-3417/14/2/766
Sensor fusion based seek-and-find fire algorithm for intelligent firefighting robot https://ieeexplore.ieee.org/abstract/document/6584304?casa_token=LkAw2KTC4nYAAAAA:sfj76cZ9huUmUO-CDOGtj8YEuFbax9n_1bjf8qktH1_HyPR44yadjAo0pHykrJmxICOuE2jiEQ
On the Enhancement of Firefighting Robots using Path-Planning Algorithms https://link.springer.com/article/10.1007/s42979-021-00578-9

Appendix

Appendix 1; Logbook

Logbook
Week Name Hours spent Total hours
1 Dimitrios Adaos Meeting (1h), Brainstorm (0.5h)
Wiliam Dokov Meeting (1h), Brainstorm (0.5h)
Kwan Wa Lam Meeting (1h), Brainstorm (0.5h)
Kamiel Muller Meeting (1h), Brainstorm (0.5h)
Georgi Nihrizov Meeting (1h), Brainstorm (0.5h)
Twan Verhagen Meeting (1h), Brainstorm (0.5h)
2 Dimitrios Adaos
Wiliam Dokov
Kwan Wa Lam
Kamiel Muller
Georgi Nihrizov
Twan Verhagen
3 Dimitrios Adaos
Wiliam Dokov
Kwan Wa Lam
Kamiel Muller
Georgi Nihrizov
Twan Verhagen
4 Dimitrios Adaos
Wiliam Dokov
Kwan Wa Lam
Kamiel Muller
Georgi Nihrizov
Twan Verhagen