Overview
All structures in realistic engineering systems are designed to resist vibrational forces caused by external or internal sources. With the advancements in technological processes and requirements for ultra-high precision, the amount of vibrations affecting system performance has to be significantly reduced. As such, it is important to comprehend, model, analyse, and control these vibrations. This module aims to cover the concept of structure vibration and control in physical systems. Using real world examples, various mathematical models, characteristics, performance, and stability of feedback control systems will also be introduced and evaluated. Furthermore, the effectiveness of controller design for proportional-integral-derivative controllers and appropriate compensators will be evaluated using Bode plots, root loci, and frequency response techniques. A case study on modeling and controlling vibrations of the voice coil motor in a commercial hard disk drive will also be discussed.
What You’ll Learn
- Comprehend basic terminology used in structure vibration and control systems.
- Analyse mathematical models and characteristics of control systems.
- Evaluate various performance and stability of feedback control systems.
- Use Bode plots, mathematical models, and frequency response techniques to calculate gain and phase margins and system bandwidth.
- Design proportional-integral-derivative (PID)- type controllers and appropriate compensators for control of vibrations in a realistic engineering structure
Who Should Attend
- FM Manager
- Team Lead/ Engineers in maintenance
- Consultants
- Facility Engineer/ Design Engineer (Mechanical)
- Healthy Building Manager
- Manager (Building Sustainability)
- Design Manager (Environmental Sustainability)
- Project manager
- Specialist in Facility Management
SITizens Learning Credits (SLC) - Eligible Course
This course is SITizens Learning Credits (SLC) eligible. Please refer to the
user guide how to register for courses utilising your SLC.
Find out more about
SITizens Learning Credits (SLC).
Pre-requisite
One year of relevant work experience, post-bachelor degree qualification, in the built environment or engineering industry.
Certificate and Assessment
A Certificate of Participation will be issued to participants who:
- Attend 75% of the course
- Undertake non-credit bearing assessment (during course)
A Certificate of Attainment for each module will be issued to participants who:
- Attend at least 75% of each respective module; and
- Participants who pass the Continuous Assessment
Schedule
Date |
Time |
Venue |
3 May – 26 Jul 2023 |
Every Wednesdays, 7pm - 10pm |
SIT@Dover, 10 Dover Drive, Singapore 138683 |
Fees
Category |
Full Fee |
After SF Funding |
Singapore Citizen (Below 40) |
$3,540.69 |
$1,062.21 |
Singapore Citizen (40 & above) |
$3,540.69 |
$400.40 |
Singapore PR/LTVP+ Holder |
$3,573.78 |
$1,072.14 |
Non-Singaporeans |
$3,573.78 |
Not Eligible |
Note:
- All figures include GST. GST applies to individuals and Singapore-registered companies.
- You can opt for either SkillsFuture Funding or Mid-Career Enhanced Subsidy. Both cannot be combined.
Learn more about funding types available
Terms & Conditions:
SkillsFuture Funding
To be eligible for the 70% training grant awarded, applicants (and/or their sponsoring organisations where applicable) must:
- Be a Singaporean Citizen or Singapore Permanent Resident
- Not receive any other funding from government sources in respect of the actual grant disbursed for the programme
SkillsFuture Mid-Career Enhanced Subsidy
To be eligible for the 90% enhanced subsidy awarded, applicants (and/or their sponsoring organisations where applicable) must:
- Be a Singaporean Citizen
- Be at least 40 years old
- Not receive any other funding from government sources in respect of the actual grant disbursed for the programme
SIT reserves the right to collect the balance of the programme fees (i.e. the potential grant amount) directly from the applicants (and/or their sponsoring organisations where applicable) should the above requirements not be fulfilled.
SIT reserves the right to make changes to published course information, including dates, times, venues, fees and instructors without prior notice.
Course Series
Modular Certification Courses - Building Services Engineering
These modules are stackable towards a Postgraduate Certificate in Building Services Engineering (PGCert BSE) or can be taken individually as a single module:
Modules
- MEC6003 Construction Management using BIM
- MEC6015 Project Management
- MEC6017 Indoor Environmental Quality Engineering
- MEC6018 Lighting Technology for Building Services
- MEC6021 Structure Vibration and Control
Each module carries ECTS 6 credits. Candidates who pass any 4 modules (totalling 24 credits) with a CGPA of 2.5 or more will be awarded the Postgraduate Certificate in Building Services Engineering by SIT. All the above modules are subsidised by SkillsFuture Singapore.
Effective Jan 2023, the above modules have been renamed from
SIE60XX to
MEC60XX. There is no change in their stackability towards the Postgraduate Certificate in Building Services Engineering.