TY - GEN
T1 - Proof of Concept of an ROV to Measure the Contamination Level of Natural Waters in Peruvian High Andean Zones
AU - Garcia-Romero, Antony
AU - Huaripata-Leon, Jhon
AU - Ramos-Cordova, Elian
AU - Huamanchahua, Deyby
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - Robotic engineering has grown rapidly thanks to the use of underwater robots that began to revolutionize water exploration, providing better information in future research. The objective of the study was to validate the proof of concept of an ROV using a variable control and distribution system. The requirements analysis was developed using a methodology based on the VDI2206 standard. The study detailed the classification of underwater robots according to their autonomy, mission type and propulsion. In addition, it presented the general design showing the structure of the underwater robot, the central processing unit and the subsystems (communication, navigation, safety, propulsion, data acquisition and power supply). Likewise, the specific design presented the 3D modeling and description of the parts in the inventor software. Regarding the control and communication system, the radio frequency circuit was designed and simulated. The results obtained were the validation of the control system and distribution of variables for the proof of concept of an ROV. The main quality of the underwater robot is its stability and hermeticity, since it was designed to withstand a desired immersion process. Other important features are its easy portability, data transfer fluidity and corrosion resistance.
AB - Robotic engineering has grown rapidly thanks to the use of underwater robots that began to revolutionize water exploration, providing better information in future research. The objective of the study was to validate the proof of concept of an ROV using a variable control and distribution system. The requirements analysis was developed using a methodology based on the VDI2206 standard. The study detailed the classification of underwater robots according to their autonomy, mission type and propulsion. In addition, it presented the general design showing the structure of the underwater robot, the central processing unit and the subsystems (communication, navigation, safety, propulsion, data acquisition and power supply). Likewise, the specific design presented the 3D modeling and description of the parts in the inventor software. Regarding the control and communication system, the radio frequency circuit was designed and simulated. The results obtained were the validation of the control system and distribution of variables for the proof of concept of an ROV. The main quality of the underwater robot is its stability and hermeticity, since it was designed to withstand a desired immersion process. Other important features are its easy portability, data transfer fluidity and corrosion resistance.
KW - Proof of concept
KW - ROV
KW - high Andean zones
KW - natural waters
UR - http://www.scopus.com/inward/record.url?scp=85146434213&partnerID=8YFLogxK
U2 - 10.1109/ANDESCON56260.2022.9989987
DO - 10.1109/ANDESCON56260.2022.9989987
M3 - Conference contribution
AN - SCOPUS:85146434213
T3 - 2022 IEEE ANDESCON: Technology and Innovation for Andean Industry, ANDESCON 2022
BT - 2022 IEEE ANDESCON
A2 - Lozada, Mariela Cerrada
A2 - Mendoza, Paul Sanmartiin
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 11th IEEE Conference of the Andean Council, ANDESCON 2022
Y2 - 16 November 2022 through 19 November 2022
ER -