Automatic Storage and Retrieval System using a Single Mobile Robot

Because of the Big Data, artificial intelligence and the Internet of Things all represent potential breakthroughs for productivity and have received considerable attention which has automated many areas of our lives. So, one of these areas is the robot industry. Robots have advanced in significant ways as they have opened technology for exciting new use cases in the supply chain. Mobile autonomous robots can travel through warehouse aisles to execute tasks more efficiently than human labor alone. Pick and store robotize system is a robot car that can follow a deterministic path depending on special algorithms that gives path with the desired specification. Two approaches for automatic storage and retrieval system are produced in this paper: The minimum path approach and the closest first approach. Both approaches use a single mobile robot to store and retrieval several orders to a single received station. In the first approach, the order with the shortest path from the robot to the receiver station through its location is chosen as the first order to be executed. In the second approach, the order with the smallest distance to the robot is executed at first. Several simulation results are tested to show this improvement in length of path and time of arrival.

[1]  SADAN Kulturel,et al.  Experimental investigation of shared storage assignment policies in automated storage/retrieval systems , 1999 .

[2]  S M Taslim Reza,et al.  Design & implementation of a line following robot for irrigation based application , 2016, 2016 19th International Conference on Computer and Information Technology (ICCIT).

[3]  Osama T. Rashid,et al.  Software implementation of a static store system using the digital differential analyzer algorithm , 2018, 2018 International Conference on Engineering Technology and their Applications (IICETA).

[4]  Kees Jan Roodbergen,et al.  Warehousing in the Global Supply Chain , 2012 .

[5]  T Abdulmuttalib,et al.  The Automatic Storage and Retrieval System: An Overview , 2019 .

[6]  Zaki Sari,et al.  Comparative Study between Continuous Models and discrete models for Single Cycle Time of a Multi-Aisles Automated Storage and Retrieval System with Class Based Storage , 2016 .

[7]  Gerhard Wäscher,et al.  Order Batching in Order Picking Warehouses: A Survey of Solution Approaches , 2012 .

[8]  Abdulmuttalib T. Rashid,et al.  Design and implementation of static and dynamic objects store systems using line follower robots , 2018, 2018 International Conference on Advance of Sustainable Engineering and its Application (ICASEA).

[9]  T Abdulmuttalib,et al.  Design and Construction a Dynamic Store System using the Bezier Curve Algorithms , 2018 .

[10]  N. Buniyamin,et al.  An Overview of Autonomous Mobile Robot Path Planning Algorithms , 2006, 2006 4th Student Conference on Research and Development.

[11]  Geetika Arora,et al.  Incorporating perception radius to the line follower robot , 2014, Proceedings of 3rd International Conference on Reliability, Infocom Technologies and Optimization.

[12]  Murat Topaloglu,et al.  The Use of Computer Controlled Line Follower Robots in Public Transport , 2016 .

[13]  Abdulmuttalib T. Rashid,et al.  An algorithm for Path planning with polygon obstacles avoidance based on the virtual circle tangents , 2016 .

[14]  Tang Sai Hong,et al.  Travel Time Analysis of an Open-Rack Miniload AS/RS under Class-Based Storage Assignments , 2016 .

[15]  T Abdulmuttalib,et al.  Design and Construction Objects Store System using Line Follower Robot , 2018 .