Journal of Precision Instrument and Machinery (JPIM)
Journal of Precision Instrument and Machinery (JPIM) is a journal dedicated to promoting and accelerating the dissemination of new research findings. There is a wealth of exciting research activity in this field worldwide. The journal aims to provide academicians and scientists around the globe with a platform to share, promote, and discuss various emerging issues and developments in different areas of precision instruments and machinery.
Aims & Scope
Journal of Precision Instrument and Machinery (JPIM) is a journal dedicated to promoting and accelerating the dissemination of new research findings. There is a wealth of exciting research activity in this field worldwide. The journal aims to provide academicians and scientists around the globe with a platform to share, promote, and discuss various emerging issues and developments in different areas of precision instruments and machinery.
Aims
- To promote and accelerate the dissemination of new research findings across the fields of precision instruments and machinery globally.
- To provide academicians and scientists worldwide with a platform to share, promote, and discuss emerging issues and developments in all areas of precision instruments and machinery.
- To foster academic exchange, collaboration, and innovation in precision engineering, instrument science, and advanced machinery design.
- To advance knowledge and engineering practice through rigorous scholarly publication of original research in precision instruments and machinery.
Scope
The journal covers a wide range of topics related to precision instruments and machinery, including but not limited to:
Precision Instruments and Metrology
- Precision measurement and testing technologies, including dimensional metrology, optical metrology, and sensor systems
- Micro/nano-manufacturing and precision machining, including ultra-precision machining, microfabrication, and nanofabrication
- Sensing and control systems, including precision sensors, signal processing, and feedback control technologies
- Instrument design and calibration, including precision instrument design, calibration methods, and performance evaluation
Advanced Machinery and Precision Engineering
- Precision machinery design and manufacturing, including high-precision machine tools, robotic systems, and mechanism design
- Dynamics and vibration control in precision machinery, including vibration analysis, damping technologies, and dynamic balancing
- Mechatronics and intelligent machinery, including automated machinery, mechatronic systems, and intelligent control
- High-precision motion systems, including linear motors, precision stages, and positioning systems