Vibration Serviceability: Applications

Aim

This course builds on the theoretical knowledge presented during the Vibration Serviceability: Fundamental Vibrations Theory course, with a focus on applications. It will cover vibration serviceability design and assessment, structural performance monitoring and vibration mitigation.

Learning outcomes 

By the end of the course, you should be able to:
 
  • Understand the process for checking vibration serviceability of floors, footbridges, grandstands and tall buildings
  • Have an appreciation of vibration testing and monitoring technologies
  • Have an appreciation of the main mitigation technologies available for dealing with vibration serviceability problems
  

Tutor

Professor Aleksandar Pavic is an expert in vibration serviceability of slender civil engineering structures that are occupied and dynamically excited by humans. He co-authored and carried out experimental verification of the most advanced worldwide design guidelines on crowd dynamic loading of grandstands, published by The Institution of Structural Engineers in 2008.

Professor Paul Reynolds was appointed Professor of Structural Dynamics and Control at the University of Exeter in May 2013, following many years at the University of Sheffield. His research interests are in advanced technologies for control of vibrations in civil engineering structures, with a focus on active control of human-induced vibrations.

Both are directors of Full Scale Dynamics Ltd., a university spin-off company specialising in commercial testing, monitoring and performance assessment of full-scale civil engineering structures.


Intended for

Civil and structural engineers dealing with problems of building and structural vibration,particularly in buildings, footbridges, and stadiums. The course is recommended for those relatively new to the field of structural vibrations and who need to build their understanding of vibration theory.

Entry criteria

Participants will need knowledge of matrix calculations, solution of second order differential equations, complex numbers and functions, Fourier series, and basics of finite element analysis. Recommended reading: Williams, M (2016). Structural Dynamic. London: CRC Press.

Discount for course pair

Vibration Serviceability: Fundamental Vibrations Theory is being run on the previous day, 9 October 2019 – a discount is available if both courses are booked together.


Don't delay booking your place - if we have not received enough bookings to break even one month before the date of the course, we will have to cancel it.

Event Information

Eventbrite - Vibration Serviceability: Applications

Event Status
Places Available

Event Date
10/10/2019

Time
10:00 - 17:30

Price
£290 + VAT for Members
(Early bird £261 + VAT)

£370 + VAT for Non-Members
(Early bird £333 + VAT)

*Additional information on discounts can be found bellow

Location
The Institution of Structural Engineers, International HQ, 47-58 Bastwick Street, London, EC1V 3PS, United Kingdom

Speaker(s)
Professor Aleksandar Pavic and Professor Paul Reynolds

Event Contact Email
training@istructe.org

Additional Information
Discount:
Book both Vibration Serviceability courses together and get a disount. 

Price for both days:

£475 + VAT for members
(Early bird £427 + VAT)

£615 + VAT for non-members 
(Early bird £553 + VAT)






All of the pages on this website are the copyright © of The Institution of Structural Engineers.

The Institution of Structural Engineers, International HQ, 47-58 Bastwick Street, London, EC1V 3PS, United Kingdom
Tel: +44 (0)20 7235 4535 Fax: +44 (0)20 7235 4294
Registered with the Charity Commission for England and Wales No. 233392 and in Scotland No. SC038263
Follow us on: Twitter Facebook LinkedIn Youtube The Structural Engineer Jobs