Abstract
This article presents the concept of a robotic system for aliquoting of biomaterial, consisting of a serial manipulator in combination with a parallel Delta-like robot. The paper describes a mathematical formulation for approximating the geometric constraints of the parallel robot as a set of solutions to a system of nonlinear inequalities. The analysis of the workspace is carried out, taking into account singularity zones, using a method based on the analysis of the Jacobian matrix of the mechanism and the interference of links. An optimal design procedure is proposed for the dimensional synthesis based on a criterion for maximizing the volume of the workspace, taking into account the ambiguity of the solution of the inverse kinematics. Simulation results are reported and discussed to propose a suitable design solution.
Funder
State assignment of Ministry of Science and Higher Education of the Russian Federation
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference35 articles.
1. Standardization and Innovation in Paving a Path to a Better Future: An Update of Activities in ISO/TC276/WG2 Biobanks and Bioresources
2. ABB Robots Aid Rapid Automated Testing for COVID-19 Virushttps://new.abb.com/news/detail/75687/cstmr-abb-robots-aid-rapid-automated-testing-for-covid-19-virus
3. Sample Preparation Automation for GC Injection
4. Robotic Digging Station PIROhttps://www.labortechnik.com/en/pipetting-robot-piro/uv-lamp-piro
5. Freedom EVO® Serieshttps://lifesciences.tecan.com/products/liquid_handling_and_automation/freedom_evo_series?p=tab--2
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