DSP and other related alternate technologies to CNC in FMS: a review

In the current scenario, due to the high expectations and rapidly changing demands of the customers’, the majority of manufacturing sectors in developing nations now facing very tough to thrive. As this environment becomes more challenging, it is necessary to switch from conventional manufacturing s...

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Bibliographic Details
Published inInternational journal of system assurance engineering and management Vol. 15; no. 6; pp. 2067 - 2076
Main Authors Gothwal, Suman, Raj, Tilak, Vardhan, Alok, Kumar, Ashiwani
Format Journal Article
LanguageEnglish
Published New Delhi Springer India 2024
Springer Nature B.V
Subjects
Computer integrated manufacturing
Control systems
Developing countries
Digital signal processing
Digital signal processors
Engineering
Engineering Economics
Flexible manufacturing systems
LDCs
Logistics
Manufacturing
Marketing
Microprocessors
Numerical controls
Organization
Quality Control
Reliability
Review Papers
Safety and Risk
Servocontrol
DSP
The intelligent numerical control
Open numerical control system
Flexible manufacturing system
NC
Flexible numerical control
Open-architecture CNC
CNC
FNC
ONCS
THINC
FMS
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Summary:In the current scenario, due to the high expectations and rapidly changing demands of the customers’, the majority of manufacturing sectors in developing nations now facing very tough to thrive. As this environment becomes more challenging, it is necessary to switch from conventional manufacturing systems to advanced manufacturing systems, such as CNC, FMS, HFMS, and CIM. This paper’s goal is to give researchers a foundation on which to choose proactive alternatives to CNC. This study’s objectives are to identify the elements that influence the manufacturing system and identify the most effective manufacturing system. For this purpose, different alternate technologies like flexible numerical control (FNC), The intelligent numerical control, open numerical control system, digital signal processor (DSP), and open-architecture CNC have been discussed in detail. The revised definition of an FMS, or FNC, proposed in this work gives room for the creation of more efficient systems and creates new avenues for research. Limitations of traditional FMS, design and working principle of DSP servo control technology, and other related alternate technologies to CNC in FMS have also been discussed in this research.
ISSN:0975-6809
0976-4348
DOI:10.1007/s13198-023-02244-0