D, Satheesh Pandian . Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot. Articles in Press, [S.l.], v. 0, n.0, p. , august 2024. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/sl/article/quantitative-sequential-modelling-approach-to-estimate-the-reliability-of-computer-controlled-pneumatically-operated-pick-and-place-robot/>. Date accessed: 22 dec. 2024. doi:http://dx.doi.org/.
D, S. (0). Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot. Articles in Press, 0(0), . doi:http://dx.doi.org/
@article{., author = {Satheesh Pandian D}, title = {Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot}, journal = {Articles in Press}, volume = {0}, number = {0}, year = {0}, keywords = {Pneumatically controlled pick-and-place robots, automation, reliability, LabVIEW software, failure analysis; }, abstract = {Pneumatically controlled pick-and-place robots are an integral part of contemporary manufacturing processes and have the potential to substantially enhance the precision and velocity of numerous production-related tasks. As automation continues to disrupt various sectors, the role of these robots is becoming increasingly crucial. Achieving peak performance in robot operations requires a relentless focus on safety and reliability. As a result, subsequence reliability must be carefully considered from the initial part of the design phase. Roboticists need to identify the dependable subsequences and parts of the robot's operational framework in prior to access the system’s overall reliability. This analytical technique aids in component identification and demonstrates the way to redundancy measures, which will ensure dependability and robustness. Based on recent theories and frameworks, the researchers can understand the factors which have more impact towards the reliability of pneumatically driven pick-and-place robots. Thus, our intellectual research work improves an exhaustive dependability analysis of a computer-controlled pneumatically operated pick-and-place robot. As part of our methodology, we use modern LabVIEW software to conduct a comprehensive failure analysis and estimate the reliability of the sequence.}, issn = {0039-2480}, pages = {}, doi = {}, url = {https://www.sv-jme.eu/sl/article/quantitative-sequential-modelling-approach-to-estimate-the-reliability-of-computer-controlled-pneumatically-operated-pick-and-place-robot/} }
D, S. 0 August 0. Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot. Articles in Press. [Online] 0:0
%A D, Satheesh Pandian %D 0 %T Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot %B 0 %9 Pneumatically controlled pick-and-place robots, automation, reliability, LabVIEW software, failure analysis; %! Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot %K Pneumatically controlled pick-and-place robots, automation, reliability, LabVIEW software, failure analysis; %X Pneumatically controlled pick-and-place robots are an integral part of contemporary manufacturing processes and have the potential to substantially enhance the precision and velocity of numerous production-related tasks. As automation continues to disrupt various sectors, the role of these robots is becoming increasingly crucial. Achieving peak performance in robot operations requires a relentless focus on safety and reliability. As a result, subsequence reliability must be carefully considered from the initial part of the design phase. Roboticists need to identify the dependable subsequences and parts of the robot's operational framework in prior to access the system’s overall reliability. This analytical technique aids in component identification and demonstrates the way to redundancy measures, which will ensure dependability and robustness. Based on recent theories and frameworks, the researchers can understand the factors which have more impact towards the reliability of pneumatically driven pick-and-place robots. Thus, our intellectual research work improves an exhaustive dependability analysis of a computer-controlled pneumatically operated pick-and-place robot. As part of our methodology, we use modern LabVIEW software to conduct a comprehensive failure analysis and estimate the reliability of the sequence. %U https://www.sv-jme.eu/sl/article/quantitative-sequential-modelling-approach-to-estimate-the-reliability-of-computer-controlled-pneumatically-operated-pick-and-place-robot/ %0 Journal Article %R %& %P 1 %J Articles in Press %V 0 %N 0 %@ 0039-2480 %8 2024-08-28 %7 2024-08-28
D, Satheesh Pandian. "Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot." Articles in Press [Online], 0.0 (0): . Web. 22 Dec. 2024
TY - JOUR AU - D, Satheesh Pandian PY - 0 TI - Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot JF - Articles in Press DO - KW - Pneumatically controlled pick-and-place robots, automation, reliability, LabVIEW software, failure analysis; N2 - Pneumatically controlled pick-and-place robots are an integral part of contemporary manufacturing processes and have the potential to substantially enhance the precision and velocity of numerous production-related tasks. As automation continues to disrupt various sectors, the role of these robots is becoming increasingly crucial. Achieving peak performance in robot operations requires a relentless focus on safety and reliability. As a result, subsequence reliability must be carefully considered from the initial part of the design phase. Roboticists need to identify the dependable subsequences and parts of the robot's operational framework in prior to access the system’s overall reliability. This analytical technique aids in component identification and demonstrates the way to redundancy measures, which will ensure dependability and robustness. Based on recent theories and frameworks, the researchers can understand the factors which have more impact towards the reliability of pneumatically driven pick-and-place robots. Thus, our intellectual research work improves an exhaustive dependability analysis of a computer-controlled pneumatically operated pick-and-place robot. As part of our methodology, we use modern LabVIEW software to conduct a comprehensive failure analysis and estimate the reliability of the sequence. UR - https://www.sv-jme.eu/sl/article/quantitative-sequential-modelling-approach-to-estimate-the-reliability-of-computer-controlled-pneumatically-operated-pick-and-place-robot/
@article{{}{.}, author = {D, S.}, title = {Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot}, journal = {Articles in Press}, volume = {0}, number = {0}, year = {0}, doi = {}, url = {https://www.sv-jme.eu/sl/article/quantitative-sequential-modelling-approach-to-estimate-the-reliability-of-computer-controlled-pneumatically-operated-pick-and-place-robot/} }
TY - JOUR AU - D, Satheesh Pandian PY - 2024/08/28 TI - Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot JF - Articles in Press; Vol 0, No 0 (0): Articles in Press DO - KW - Pneumatically controlled pick-and-place robots, automation, reliability, LabVIEW software, failure analysis, N2 - Pneumatically controlled pick-and-place robots are an integral part of contemporary manufacturing processes and have the potential to substantially enhance the precision and velocity of numerous production-related tasks. As automation continues to disrupt various sectors, the role of these robots is becoming increasingly crucial. Achieving peak performance in robot operations requires a relentless focus on safety and reliability. As a result, subsequence reliability must be carefully considered from the initial part of the design phase. Roboticists need to identify the dependable subsequences and parts of the robot's operational framework in prior to access the system’s overall reliability. This analytical technique aids in component identification and demonstrates the way to redundancy measures, which will ensure dependability and robustness. Based on recent theories and frameworks, the researchers can understand the factors which have more impact towards the reliability of pneumatically driven pick-and-place robots. Thus, our intellectual research work improves an exhaustive dependability analysis of a computer-controlled pneumatically operated pick-and-place robot. As part of our methodology, we use modern LabVIEW software to conduct a comprehensive failure analysis and estimate the reliability of the sequence. UR - https://www.sv-jme.eu/sl/article/quantitative-sequential-modelling-approach-to-estimate-the-reliability-of-computer-controlled-pneumatically-operated-pick-and-place-robot/
D, Satheesh Pandian"Quantitative Sequential Modelling Approach to Estimate the Reliability of Computer Controlled Pneumatically operated Pick and Place Robot" Articles in Press [Online], Volume 0 Number 0 (28 August 2024)
Articles in Press
Pneumatically controlled pick-and-place robots are an integral part of contemporary manufacturing processes and have the potential to substantially enhance the precision and velocity of numerous production-related tasks. As automation continues to disrupt various sectors, the role of these robots is becoming increasingly crucial. Achieving peak performance in robot operations requires a relentless focus on safety and reliability. As a result, subsequence reliability must be carefully considered from the initial part of the design phase. Roboticists need to identify the dependable subsequences and parts of the robot's operational framework in prior to access the system’s overall reliability. This analytical technique aids in component identification and demonstrates the way to redundancy measures, which will ensure dependability and robustness. Based on recent theories and frameworks, the researchers can understand the factors which have more impact towards the reliability of pneumatically driven pick-and-place robots. Thus, our intellectual research work improves an exhaustive dependability analysis of a computer-controlled pneumatically operated pick-and-place robot. As part of our methodology, we use modern LabVIEW software to conduct a comprehensive failure analysis and estimate the reliability of the sequence.