Foundations of Industrial Engineering (2023) PDF
Document Details
Uploaded by AgileSavannah2102
2023
Sarah Castillo Vanguardia
Tags
Related
- Introduction to Ventilation PDF
- Interfaz persona-máquina: relaciones informativas y de control PDF
- R3.06 – Composants Fluidiques PDF - Université Clermont Auvergne
- SCADA Historical Configuration PDF
- Sesión 11 Guión de Presentación Sesión Sincrónica 2024 PDF
- Hướng Dẫn Toàn Diện Drive-Through Racking Từ A-Z 2025 PDF
Summary
This document is an overview of information systems in industrial engineering. It discusses the intended learning outcomes, core components (hardware, software etc), and types of systems, highlighting their role in optimization. It includes a discussion outline and 2023 curriculum details.
Full Transcript
LY N O Foundations of Industrial SE Engineering U E SI Overview of Information Systems -B Asst....
LY N O Foundations of Industrial SE Engineering U E SI Overview of Information Systems -B Asst. Prof. Sarah Castillo Vanguardia C PN R FO LY N O SE U E SI -B Intended Learning Outcome (ILO) C PN At the end of the discussion, the students should be able to R identify how information systems contribute to process FO optimization, quality control, inventory management, and workforce scheduling in industrial settings. LY DISCUSSION OUTLINE N O SE IS in the BSIE Curriculum U Definition of Information Systems E SI -B Core Components of IS C PN Application of IS in IE R FO 2023 BSIE CURRICULUM LY N O IEP116: INFORMATION SYSTEMS SE PRE-REQUISITE: IEP112 (QMS); IEE101 (IE ELECTIVE 1) U CO-REQUISITE: NONE E TERM: 3rd YEAR, 2nd SEM SI UNITS: 3 (2 LEC / 1 LAB) -B COURSE DESCRIPTION: C PN Concepts and frameworks of information systems. Analysis and design of information systems. R FO WHAT IS INFORMATION SYSTEMS? LY INDUSTRIAL INFORMATION N O ENGINEERING SYSTEMS SE U a field focused on facilitate the management and E optimizing complex improvement of operations, SI systems, integrating supply chains, and project -B workflows, ultimately people, machines, C influencing productivity, quality, materials, information, PN and customer satisfaction and energy (Heizer, Render, & Munson, 2022) R FO WHAT IS INFORMATION SYSTEMS LY N Information systems consist of components that O collect, store, and disseminate information. SE These systems support industrial engineers in U decision-making, strategic planning, and problem- E solving. SI An information system generally includes hardware, -B software, data, procedures, and people involved in C PN data collection, processing, and reporting. R (Stair & Reynolds, 2021) FO WHAT IS INFORMATION SYSTEMS LY N O SE U E SI -B C PN R FO Source: Aptien.com CORE COMPONENTS OF IS LY N HARDWARE O SE Physical components like computers, servers, and U networking devices enable E data storage, processing, and SI communication -B For IEs, understanding C hardware configurations in PN manufacturing is crucial for system reliability and efficiency (Kroenke & Boyle, R 2023) FO CORE COMPONENTS OF IS LY N SOFTWARE O SE facilitates managing information across multiple industrial U functions, including production E planning, inventory SI management, and quality control (Monk & Wagner, 2020) -B C customized software PN applications to simulate production processes and analyze system R FO CORE COMPONENTS OF IS LY N DATA O SE the core of any information system U quality of decisions depends on E data accuracy, consistency, and SI timeliness -B real-time data supports C predictive maintenance, PN helping engineers prevent downtime and boost productivity (Lohman, 2022) R FO CORE COMPONENTS OF IS LY N PROCESS O SE guidelines for using hardware and software U effectively E in industrial environments, SI clear procedures are -B essential for data handling, C ensuring that personnel PN follow specific protocols to maintain system integrity and avoid disruptions R (Kroenke & Boyle, 2023) FO CORE COMPONENTS OF IS LY N PEOPLE O SE IEs, operators, IT staff, and other personnel make up the U human aspect of information E systems SI effective collaboration -B among these individuals C ensures the success of PN information systems and their alignment with organizational goals (Stair R & Reynolds, 2021) FO TYPES OF INFORMATION SYSTEMS IN IE LY N TRANSACTION PROCESSING SYSTEMS (TPS) O manage routine transactions, such as inventory records and SE order processing U These systems automate data collection, reducing human errors and improving data consistency, which is essential for inventory E control and tracking in industrial settings (Heizer et al., 2022) SI -B ENTERPRISE RESOURCE PLANNING (ERP) C PN ERP systems help create a unified view of processes, enabling engineers to streamline production, minimize waste, and R ensure efficient resource utilization (Monk & Wagner, 2020). FO TYPES OF INFORMATION SYSTEMS IN IE LY N SUPPLY CHAIN MANAGEMENT SYSTEMS (SCMS) O provide insights into supplier performance, inventory levels, SE and delivery schedules, allowing industrial engineers to enhance supply chain resilience and efficiency U aids in forecasting demand and optimizing resource allocation E (Lohman, 2022) SI -B DECISION SUPPORT SYSTEMS (DSS) C PN These systems are especially valuable in scenario analysis and what-if simulations, helping engineers identify potential R bottlenecks, plan production schedules, and optimize FO workflows (Stair & Reynolds, 2021). APPLICATION OF IS IN IE LY N INVENTORY AND O PROCESS SE SUPPLY CHAIN OPTIMIZATION U MANAGEMENT E SI QUALITY -B WORKFORCE C CONTROL AND MANAGEMENT AND PN ASSURANCE SCHEDULING R FO FUTURE TRENDS LY CLOUD-BASED PLATFORMS N O SE U E SI -B C PN R FO FUTURE TRENDS LY CLOUD-BASED PLATFORMS N O SE U E SI -B C PN R FO REFERENCES LY N O Heizer, J., Render, B., & Munson, C. (2022). Operations Management: Sustainability and Supply Chain Management. Pearson. SE Kroenke, D. M., & Boyle, R. J. (2023). Using MIS. Pearson. U Lohman, D. (2022). Supply Chain Management: Strategy, Planning, and Operation. Prentice Hall. E Monk, E., & Wagner, B. (2020). Concepts in Enterprise Resource Planning. Cengage Learning. SI -B Stair, R., & Reynolds, G. (2021). Principles of Information Systems. Cengage Learning. C PN R FO LY DISCLAIMER N Every reasonable effort is made to ensure the accuracy of the information used in the O creation of this reference material, without prejudice to the existing copyrights of the authors. SE As an off-shoot of the innumerable difficulties encountered during these trying times, the authors endeavored to ensure proper attribution of the esteemed original works, by way of U footnotes or bibliography, to their best abilities and based on available resources, despite the limited access and mobility due to quarantine restrictions imposed by the duly constituted E authorities. SI -B We make no warranties, guarantees or representations concerning the accuracy or suitability of the information contained in this material or any references and links provided C here. Links to other materials in our CPOD and CAM was made in good faith, for non- PN commercial teaching purposes only to the extent justified for the purpose, and consistent with fair use under Sec. 185 of Republic Act No. 8293, otherwise known as the Intellectual Property R Code of the Philippines. FO COPYRIGHT NOTICE LY Materials contained in the learning packets have been copied N and conveyed to you by or on behalf of Pamantasan ng Cabuyao O pursuant to Section IV - The Copyright Act (RA) 8293 of the SE Intellectual Property Code of the Philippines. U E You are not allowed by the Pamantasan ng Cabuyao to SI reproduce or convey these materials. The content may contain -B works which are protected by copyright under RA 8293. You may be C liable to copyright infringement for any copying and/ or distribution PN of the content and the copyright owners have the right to take legal action against such infringement. R FO Do not remove this notice.
