Project Controls Expo, 18th Nov 2014 - "Contract Management at the Programme Level" By Andy Cruise
Full Conference Programme - APVC2019apvc2019.org/assets/final-programme-apvc-2019-13-11-19.pdf ·...
Transcript of Full Conference Programme - APVC2019apvc2019.org/assets/final-programme-apvc-2019-13-11-19.pdf ·...
The 18th Asia-Pacific Vibration Conference 18th – 20th November, 2019, University of Technology Sydney, 15 Broadway, Ultimo, NSW 2007, Australia
Full Conference Programme Issued: 13/11/2019 21:58:28
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Contents
Table of Contents
CONTENTS .......................................................................................................................................................2
SPONSORS AND EXHIBITORS, APVC 2019 ........................................................................................................3
PLATINUM AND GOLD SPONSORS/EXHIBITORS ............................................................................................................... 3 SILVER AND DOUBLE BRONZE SPONSORS/EXHIBITORS ..................................................................................................... 4 OTHER SPONSORS/EXHIBITORS/SUPPORTERS ................................................................................................................. 5
ORGANISER APVC 2019 ....................................................................................................................................6
WELCOME TO APVC 2019 ................................................................................................................................7
ACKNOWLEDGEMENT OF COUNTRY ................................................................................................................7
LOCAL ORGANISING COMMITTEE ....................................................................................................................8
STEERING COMMITTEE ....................................................................................................................................8
SCIENTIFIC COMMITTEE ...................................................................................................................................8
SPECIAL SESSIONS ............................................................................................................................................9
LOCAL ORIENTATION INFORMATION ............................................................................................................. 10
CONFERENCE ROOMS LAYOUT ...................................................................................................................... 11
“KANGAROO” (BUILDING 11, LEVEL 0, ROOM 405) .................................................................................................... 11 “WOMBAT” (BUILDING 11, LEVEL B1, ROOM 101) .................................................................................................... 12 “DINGO” (BUILDING 11, LEVEL 6, ROOM 408) .......................................................................................................... 13 “PLATYPUS” (BUILDING 10, LEVEL 3, ROOM 490) & “KOALA” (BUILDING 10, LEVEL 3, ROOM 500) ................................... 14
SESSIONS PROGRAMME – AT A GLANCE ........................................................................................................ 15
PAPERS PROGRAMME – DETAIL VIEW ........................................................................................................... 18
GUIDELINES FOR SESSION CHAIRS, SPEAKERS AND OTHER DELEGATES ......................................................... 29
ENTERTAINMENT ........................................................................................................................................... 30
WELCOME RECEPTION DETAILS................................................................................................................................. 30 GALA DINNER DETAILS ............................................................................................................................................ 31
Schedule and menu ....................................................................................................................................... 31 UTS TECH LAB TOURS AND FAREWELL COCKTAIL DETAILS .............................................................................................. 32
What is Tech Lab? ......................................................................................................................................... 32 Why is Tech Lab different? ............................................................................................................................ 32 Ready for the future ...................................................................................................................................... 32
APPENDIX A – FACULTY OF ENGINEERING AND IT EMERGENCY PROCEDURES ............................................... 33
APPENDIX B – FACULTY OF ENGINEERING AND IT CAR PARKING OPTIONS .................................................... 34
APPENDIX C – UTS EVENT WIFI ...................................................................................................................... 35
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Sponsors and exhibitors, APVC 2019
Platinum and Gold sponsors/exhibitors
Polytec has been bringing light into the darkness for 50 years. With more than 400 employees worldwide, we develop, produce and distribute optical measurement technology solutions for research and industry. Our quality innovative products have an excellent reputation internationally among the expert community. We find solutions tailored to our customers’ requirements. The development and production of innovative measurement systems, especially for our core technology Laser Doppler Vibrometry (LDV), has kept our customers and us at the forefront of dynamic characterization. The implementation of LDV extends from basic vibration measurement tasks to advanced modal analysis / FE correlation. Ultimately, our solutions are meant to help companies to assert and build upon their technological leadership. The effective use of the laser technology allows a non-contact, non-invasive test method for vibration which is widely appreciated across industries such as Automotive, Aerospace, Semiconductor, Consumer Electronics etc. The decades of experience have allowed Polytec to expand the technology and our product line-up which could be generally summarized as follows: Micro to Macro sample dimensions Single point or Full-field Scanning 1D or 3D axis data FRF, Transient, Mode & Operational Deflection Shape analysis capable Max frequency BW up to 2.5GHz Max distance up to 300m Sub-pm resolution. Together with Warsash Scientific, our long-standing partner in the ANZ region for over 40 years, Polytec would welcome visitors to inspect the latest Polytec VibroFlex series range of research grade single point laser Doppler vibrometers at the APVC 2019 exhibition. The modular concept of VibroFlex combines the versatility of a universal front-end with a selection of special sensor heads, tailored to the needs of your measuring task, including the latest Xtra IR sensor head option. For more information please visit www.polytec.com.
Bestech Australia, an ISO9001 certified company, supplies state-of-the-art test and measurement sensors for measurement of physical parameters, data acquisition systems as well as technical teaching equipment from world leading manufacturers. Our constantly expanding product portfolio is suitable for university research,
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teaching and R&D laboratories as well as for demanding high precision measuring applications in industrial environments. We are proud to complement this with our own manufacture. We offer full local technical support throughout the entire product lifecycle including product specification, commissioning, training and repair. This is delivered by our team of factory trained application engineers and product specialists. We pride in delivering excellent service for ultimate customer satisfaction.
Digitization is rapidly gaining ground. Today’s manufacturers develop new product architectures and material types, offer consumers customization options and massively introduce smart functionalities. These innovations are enabled by capabilities such as mechatronics, additive manufacturing, and concepts like cloud or the internet of things. Engineers need to master this additional complexity, which is often related to an ever-increasing demand for energy efficiency, while still dealing with classic performance requirements, such as noise, vibrations and durability. This evolution urges companies to dramatically transform their classical verification-centric development processes. Instead, the Digital Twin paradigm is on a rise. In this new approach, manufacturers associate every individual product to a set of ultra-realistic, multi-physics models and data, that stay in-sync, and can predict its real behavior throughout the lifecycle, starting from the very early stages. To achieve this, simulation needs to gain realism to become capable of taking up a predictive role, while the combination of increased validation workload and the exploration of uncharted design territories requires more productive and innovative testing methodologies. On top of that, manufacturers will need to deploy an infrastructure that helps them remove the traditional barriers between departments, even letting product development continue after delivery. That is exactly the core business of Siemens Digital Industries Software. Siemens Digital Industries Software offers manufacturers across the various industries a comprehensive environment that helps their engineering departments create and maintain a Digital Twin. Within this offering, the Simcenter™ solutions portfolio focuses on performance engineering. Simcenter uniquely integrates physical testing with system simulation, 3D CAE and CFD, and combines this with design exploration and data analytics. Simcenter helps engineers accurately predict vehicle performance, optimize designs and deliver innovations faster and with greater confidence.
Silver and Double Bronze sponsors/exhibitors
At Brüel & Kjær, we help our customers solve sound and vibration challenges and develop advanced technology for measuring and managing sound and vibration. We ensure component quality, optimize product performance and improve the environment. Founded in 1942, Brüel & Kjær Sound & Vibration Measurement A/S has grown to become the world’s leading supplier of advanced technology for measuring and managing the quality of sound and vibration. The sound and vibration challenges facing our customers are diverse, including vibration in car engines; evaluation of building acoustics; mobile telephone sound quality; cabin comfort in passenger airplanes; production quality control; wind turbine noise; and much more. Our innovative and highly practical solutions have made us the first choice of engineers and designers from around the world. Many of our researchers and developers are recognized as world experts, who aid the scientific community and teach at renowned centres. By applying their thorough knowledge and experience, we can help you at every stage of your product’s life cycle: ensuring quality from design to manufacture, and efficiency throughout deployment and operations.
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Brüel & Kjær maintains a network of sales offices and representatives in 55 countries. That means local-language help is always at hand during office hours. A global group of engineering specialists supports our local teams. They can advise on and help solve all manner of sound and vibration measurement, analysis and management problems. To further support our customers worldwide, we regularly hold courses and road-shows, and participate in sound and vibration focused trade shows and conferences worldwide.
MathWorks is the leading developer of mathematical computing software. MATLAB, the language of engineers and scientists, is a programming environment for algorithm development, data analysis, visualization, and numeric computation. Simulink is a block diagram environment for simulation and Model-Based Design for multidomain dynamic and embedded engineering systems. Engineers and scientists worldwide rely on these product families to accelerate the pace of discovery, innovation, and development in automotive, aerospace, electronics, financial services, biotech-pharmaceutical, and other industries. MATLAB and Simulink are also fundamental teaching and research tools in the world's universities and learning institutions.
Accelerate Discovery With the NI Platform Researchers are driving time-critical, ambitious innovation while addressing grand engineering challenges in the broad areas of transportation, wireless communications, medicine, energy and climate change. Across each of these application areas, researchers need to easily acquire measurements, scale to complex multidisciplinary systems, and rapidly prototype a scalable solution. For more than 40 years, NI is central to accelerating researcher innovation by providing the technology and support to prototype systems, publish findings and secure funding from 5G Wireless and Communications all the way to Autonomous and Electrical Vehicles.
Other sponsors/exhibitors/supporters
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Organiser APVC 2019
Centre for Audio, Acoustics and Vibration
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Welcome to APVC 2019 Dear Asia-Pacific Vibration Conference 2019 stakeholder, on behalf of the Local Organising Committee please accept our warmest welcome wishes to this 18th edition of the Conference, to Sydney, New South Wales, Australia and to the University of Technology Sydney. Thank you for choosing to support the conference with your technical contribution and for joining us to share your ideas and recent world-leading research activities. Often overlooked and/or not fully understood, vibration (and associated phenomena) is all around us every day and is of fundamental importance to the engineering of the very fabric of our daily lives. This Conference enables experienced vibration engineering researchers and practitioners along with the experts of the future to come together to present and discuss their latest interests and activities in the domain. Contributions have been invited from across the region with a total of almost 240 abstracts submitted. Two-page extended abstracts have been sought and collected into a Book of Abstracts which delegates will be provided with at the commencement of the Conference. Almost 180 six-page short full papers have been subsequently prepared by authors and subjected to a rigorous peer review process involving world-leading experts in their fields as external reviewers. Resulting articles will be ultimately published in three volumes by Springer, entitled “Vibration Engineering for a Sustainable Future” as follows:
Vol 1. Analytical methods in noise and vibration and control, Vol 2. Numerical simulation and modelling, Vol 3. Experimental methods and verification.
Authors have been invited to attend the Conference to present their work in a 15-minute presentation slot. Papers have been organised into four parallel technical sessions within the constraints of delivering an efficient conference while ensuring delegates are able to attend talks of interest and move freely between sessions. Additionally, five keynote plenary sessions have been invited from across the region and beyond and arranged during the course of the Conference to maximise interest and value. The Local Organising Committee, along with support from the many reviewers, UTS students and staff and external sponsors and exhibitors, have worked extremely hard during the run-up to the Conference to deliver an excellent event, paying attention, where possible, to indigenous cultures within Australia and sincerely hope that all involved have a successful rewarding and memorable APVC 2019 and visit to Sydney, Australia. Again, a very warm welcome to the 18th Asia-Pacific Vibration Conference!
Associate Professor Jinchen (JC) Ji and Dr Benjamin (Ben) Halkon, co-Chairs of the Local Organising Committee, November 2019.
Acknowledgement of Country UTS acknowledges the Gadigal People of the Eora Nation, the Boorooberongal People of the Dharug Nation, the Bidiagal People and the Gamaygal People upon whose ancestral lands our university stands. We would also like to pay respect to the Elders both past and present, acknowledging them as the traditional custodians of knowledge for these lands.
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Local Organising Committee Associate Professor Jinchen (JC) Ji, University of Technology Sydney (co-Chair) Dr Benjamin (Ben) Halkon, University of Technology Sydney (co-Chair) Dr Sebastian Oberst, University of Technology Sydney (Technical Chair) Dr Terry Brown, University of Technology Sydney (Programme Chair) Dr Paul Walker, University of Technology Sydney (Ordinary Member) Dr Hamed Kalhori, University of Technology Sydney (Ordinary Member) Dr Liya Zhou, University of Technology Sydney (Ordinary Member) Dr Yancheng Li, University of Technology Sydney (Ordinary Member) Dr Philippe Blanloeuil, University of New South Wales (Ordinary Member)
Steering Committee Takuya Yoshimura, Tokyo Metropolitan University, Japan (Chairman) Shigehiko Kaneko, University of Tokyo, Japan Toshihiko Komatsuzaki, Kanazawa University, Japan Youngjin Park, KAIST, Korea No-Cheol Park, Yonsei University, Korea Haiyan Hu, Beijing Institute of Technology, China Li Cheng, Hong Kong Polytechnic University, Hong Kong Jinhao Qiu, Nanjing University of Aeronautics and Astronautics, China Zhichao Hou, Tsinghua University, China Tianran (Terry) Lin, Qingdao University of Technology, China M.Salman Leong, University of Technology, Malaysia Zaidi Mohd Ripin, University of Science, Malaysia Nguyen Van Khang, HUST, Vietnam Stefanie Gutschmidt, University of Canterbury, New Zealand Ian Howard, Curtin University, Australia Jinchen Ji, University Technology Sydney, Australia Oshihiro Narita (Honourable), Hokkaido University, Japan Hong Hee Yoo (Honourable), Hanyang University, Korea Athol J. Carr (Honourable), University of Canterbury, New Zealand Ban Chun Wen (Honourable), Northeastern University, China
Scientific Committee Professor Richard Markert, Darmstadt University of Technology, Germany Professor Xiaojun Qiu, University of Technology Sydney, Australia Dr Rodney Entwistle, Curtin University, Australia Professor Yong-Hwa Park, KAIST, Korea Professor Con Doolan, University of New South Wales, Australia Professor Benjamin Cazzolato, University of Adelaide, Australia Dr Jaspreet Singh, The University of Auckland, New Zealand Dr Pietro Borghesani, University of New South Wales, Australia Professor Tamas Kalmar-Nagy, Budapest University of Technology and Economics, Hungary Professor Mohammad Fard, RMIT, Australia Professor Guilin Wen, Hunan University, China Professor Jin Zhou, Shanghai University, China Professor CW Lim, City University of Hong Kong, Hong Kong Professor Dongping Jin, Nanjing University of Aeronautics and Astronautics, China Professor Xinwen Wang, China University of Mining & Technology, Beijing Professor Jian Xu, Tongji University, China Professor Shaopu Yang, Shijiazhuang Tiedao University, China Professor Hu Ding, Shanghai University, China
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Professor Qinsheng Bi, Jiangsu University, China Professor Hailin Wang, South China Agricultural University, China Professor Qingyun Wang, Beihang University, China Associate Professor Jie Huang, Beijing Institute of Technology, China Prof. Jie Yang, RMIT, Australia Professor Haiping Du, University of Wollongong, Australia Associate Professor Linke Zhang, Wuhan University of Technology, China Dr Sam Han, ActronAir, Australia
Special Sessions Topic: Recent Advances on Vibration Control of Engineering Structures Organizers: Dr Yancheng Li, University of Technology Sydney, Australia, email: [email protected] Dr Kaiming Bi, Curtin University, Australia, email: [email protected] A/Prof Xufeng Dong, Dalian University of Technology, China, email: [email protected] Topic: Active Noise Control for a Quieter Future Organizers: Dr Sipei Zhao, University of Technology Sydney, Australia, email: [email protected] Dr Shuping Wang, University of Technology Sydney, Australia, email: [email protected] Associate Professor Lifu Wu, Nanjing University of Information Science & Technology, email: [email protected] Topic: Noise, vibration and their applications in electricity power systems Organizers: A/Professor Linke Zhang, Wuhan University of Technology, China, email: [email protected] A/Professor Yuxing Wang, Zhejiang University, China, email: [email protected] Professor Tianran Lin, Qingdao University of Technology, China, email: [email protected] Topic: Applications and Advances in Laser Doppler Vibrometry Organizers: Dr. Ben Halkon, University of Technology Sydney, Australia, email: [email protected] Dr. Philippe Blanloeuil, University of New South Wales, Australia, email: [email protected] Prof. Enrico Primo Tomasini, Universita Polytecnica delle Marche, Italia, email: [email protected]
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Local Orientation Information https://goo.gl/maps/RZhC3LPfiQ3SyjNo8
Faculty of Engineering and IT, UTS, Building 11; Directions by foot from Central Station (10 min)
Faculty of Engineering and IT, UTS, Building 11
UTS Alumni Green (Welcome Reception)
Central Station (Grand Concourse)
Faculty of Engineering and IT, UTS, Building 10
Jones St
UTS Tower/Building 1 (Early Registration)
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Conference Rooms Layout “Kangaroo” (Building 11, Level 0, Room 405)
Entrance to Level 0 is from the Wattle St entrance, down the stairs from L1, or down the escalators from Level 2 (the Jones St entrance) OR by the lifts
Wattle St entrance
Stairs down from Level 1 (Exhibition/Refreshments) Escalators from Level 2
(Jones St entrance and main lift lobby area)
CB11.00.405Lifts (use lifts 1 – 3)
Plenary and Technical Parallel Sessions - “Kangaroo” Room CB11.00.405Faculty of Engineering and IT, UTS, Building 11, Level 0
“Kangaroo”
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“Wombat” (Building 11, Level B1, Room 101)
Technical Parallel Sessions - “Wombat” Room CB11.B1.101Faculty of Engineering and IT, UTS, Building 11, Level B1
Lifts (use lifts 1 – 3)
Escalators
“Wombat”
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“Dingo” (Building 11, Level 6, Room 408)
Technical Parallel Sessions - “Dingo” Room CB11.06.408Faculty of Engineering and IT, UTS, Building 11, Level 6
Lifts (use lifts 3 – 7)
“Dingo”
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“Platypus” (Building 10, Level 3, Room 490) & “Koala” (Building 10, Level 3, Room 500)
Technical Parallel Sessions - “Platypus” Room CB10.03.490 & “Koala” Room CB10.03.500Faculty of Engineering and IT, UTS, Building 10, Level 3
Lifts Stairs from Level 2 (Jones St ground level)“K
oala
”
“Pla
typu
s”
Building 10 is next to Building 11. Level 02 is the Jones St entrance.
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Sessions programme – at a glance
17:00 18:00
Time
18:00 20:00Welcome Drinks and Canapes Reception, sponsored by Polytec-Warsash
UTS Alumni Green (see Local Orientation Information for directions)
Registration (UTS Building 1, L3 Foyer)
Sunday 17th November
"Kangaroo"(CB11.00.405)
"Wombat"(CB11.B1.101)
"Koala" (CB10.03.500)
"Dingo" (CB11.06.408)
8:00 9:00
9:00 9:30
9:30 10:30
10:30 10:40
10:30 11:00
Special session Session Session Session
SessionStructural health and
machine condition monitoring
12:30 12:45
12:45 13:30
Special session Session Session Session
Free slot
15:00 15:30
Special session Session Session Session
Free slot Free slot
17:15 18:15
18:30 20:00
Exhibition & lunch break
Registration (UTS Building 11, L0 Foyer)
Computational methods of vibrations I
followed by Plenary Lecture - Assoc. Prof. Alex Ng
Vehicle system dynamics and control I
Recent Advances on Vibration Control of
Engineering Structures I
Measurement techniques and sensors
Active Noise Control for a Quieter Future
Welcome to Country and Opening Ceremony"Kangaroo" (CB11.00.405)
Exhibition & coffee break sponsored by Bestech (UTS Building 11, L0 Foyer and L1 Mezzanine)
followed by Session Chairs Orientation Meeting
Nonlinear vibrations and control
Time
Monday 18th November
13:30 15:00
Dynamics and vibration of composite and nano-composite structures
Recent Advances on Vibration Control of
Engineering Structures II
Exhibition & coffee break
Plenary Lecture - Prof. No-Cheol Park"Kangaroo"
Steering Committee Meeting "Dingo" (CB11.06.408)
Structural health and machine condition
monitoring
Rotor dynamics I
11:00 12:15
12:15 12:30
Vibration and control of beams, plates and shells I
15:30 17:00 Experimental modal testing and analysis
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"Kangaroo" (CB11.00.405)
"Wombat" (CB11.B1.101)
"Koala" (CB10.03.500)
"Dingo" (CB11.06.408)
8:00 8:30
8:30 9:30
Session Session Session Session
Free slotFree slot
11:00 11:30
Session Session Session Special session
Session
13:00 13:15
13:00 14:00
14:00 15:00
15:00 15:30
Session Session Special session
Vibration isolation and reduction
16:00 16:15 Session
Session
18:00 22:00
16:0015:30
17:0016:15
Exhibition & lunch break
Plenary Lecture - Prof. Shigehiko Kaneko"Kangaroo"
Exhibition & coffee break
9:30 11:00
Multibody dynamics
Noise, Vibration and their Applications in Electricity
Power Systems II
Vibration and control of beams, plates and shells II
Vehicle system dynamics and control III
Conference Gala Dinner
Exhibition & coffee break sponsored by Siemens Digital Industries Software
Time
Plenary Lecture - Prof. Daolin Xu"Kangaroo"
Registration (UTS Building 11, L0 Foyer)
Tuesday 19th November
Energy harvesting systemsVibration isolation and reduction
Vehicle system dynamics and control II
Dynamics and control of networked systems
Dynamics of transport systems
Rotor dynamics II
Computational methods of vibrations II
Human Body Vibration
Noise, Vibration and their Applications in Electricity
Power Systems I
11:30 12:15
13:0012:15
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"Kangaroo"
(CB11.00.405)
"Wombat"
(CB11.B1.101)
"Koala"
(CB10.03.500)
"Platypus"
(CB10.03.490)
8:00 8:30
8:30 9:30
Session Session Session Session
Free slot
11:00 11:30
Session Session Special session
Free slot
13:15 14:00
13:30 14:30
14:30 15:30
15:30 16:00
16:00 17:00
9:30 11:00
Time
Closing Ceremony and Farewell Cocktail
Transportation to UTS City Centre Campus -
coaches to leave from Tech Lab at 4 and 4.30pm
11:30 13:15
Dynamic behaviour of
materials and vibration
absorbing materials
Human Body Vibration
Active and passive
vibration control
Wednesday 20th November
Registration (UTS Building 11, L0 Foyer)
Exhibition & lunch break
Transportation to UTS Tech Lab -
coaches to leave from Jones St at 1.30 and 2pm
UTS Tech Lab tours
Plenary Lecture - Dr Tore Butlin
"Kangaroo"
Theoretical analysis
Noise and vibration control
Exhibition & coffee break
Applications and Advances
in Laser Doppler
Vibrometry
Dynamic model updating
and system identification
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Papers programme – detail view
7:00 8:00
8:00 9:00
9:00 9:30
9:30 10:30
10:30 10:45
10:30 11:00
Monday 18th November (morning)
Welcome to Country and Opening Ceremony, "Kangaroo" (CB11.00.405)
Time
followed by Plenary Lecture - Assoc. Prof. Alex Ng, University of Adelaide - "Nonlinear Ultrasonic Guided Waves for Damage Detection"
Exhibition & coffee break sponsored by Bestech (UTS Building 11, L0 Foyer and L1 Mezzanine)
"Dingo" (CB11.06.408)"Koala" (CB10.03.500)"Wombat" (CB11.B1.101)"Kangaroo" (CB11.00.405)
followed by Session Chairs' Orientation Meeting
Exhibitors' Scheduled Arrival and Set-up Period
Registration (UTS Building 11, L0 Foyer)
11:00 11:15 41Zero control power phenomena in the minimization of sound power
using multiple control sources231
Nonlinear Vibration of an Electrostatically Excited Capacitive
Microplate153
Numerical Investigation of Vibration Characteristics and Damping
Properties of CNTs Based Viscoelastic Spherical Shell Structure
206
Field Measurements of the Propagation of Vibration Between an
Underground Tunnel and Ground Surface Through Sydney Sandstone
and Shale
11:15 11:30 229
A New Frequency Domain Adaptive Filter Coefficients Updating Method and Its Steady-state Performance in
Frequency and Time Domain
70New features of degenerate grazing
bifurcation in the impact oscillators154
Free vibration analysis of multilayer skew sandwich spherical shell panels with viscoelastic material cores and
isotropic constraining layers
65Visualization of strain distribution in
tire tread block using intermittent digital camera system
11:30 11:45 163Active Control of Sound
Transmission through an Aperture in a Thin Wall
245Bi-stability and stochastic resonance
emerges in a typical airfoil model subject to random loading
80Adaptive control of a string-plate
coupled system151
Simulation and Measurement of an electric driven turbo charger test rig
with full floating ring bearing
11:45 12:00 118
Real-time active noise control of multi-tonal noise based on multiply
connected single adaptive notch filters
192Bifurcation analysis of a stochastic
vibro-impact system with nonlinear damping via OPA method
31Time-delay Based Direct Wave Control of the Phononic Beam
83Experimental study on rail
corrugation development with 1/10 scale model
12:00 12:15 131Experimental Study of the Virtual
Sound Barrier Performance in Workplaces
60Study on dynamics of vibrating flip-flow screen using nonlinear theory
135Bifurcation analysis of a doubly
curved thin shell considering inertial effects
156
Measurement and dynamic mode analysis of flow-induced noise with
combined proper orthogonal decomposition
12:15 12:30 125Effects of Reverberation on Active
Noise Control Headrest Performance
Stru
ctur
al
heal
th a
nd
Philip
pe
Banl
eieu
l
6A Vibration-based Strategy for
Structural Health Monitoring with Cosine Similarity
198A size-dependent variable-kinematic beam model for vibration analysis of
functionally graded micro-beams30
Evaluation of Effects of Modeling Error in Hardware-in-the-Loop
Simulation System
12:30 12:45 72
Affine Combination of the Filtered-x LMS/F Algorithms for Active Control
91
Improvement of seismic performance and wind resistance for
aerogenerator by using vibration control device
12:45 13:30
Li C
heng
Activ
e No
ise C
ontr
ol fo
r a Q
uiet
er Fu
ture
Vibr
atio
n an
d co
ntro
l of b
eam
s, p
late
s and
shel
ls I
Sipe
i Zha
o an
d Sh
upin
g W
ang
Mea
sure
men
t tec
hniq
ues a
nd se
nsor
s
Exhibition & lunch break
Conr
ad W
eber
& T
ian
Han
Nonl
inea
r vib
ratio
ns a
nd co
ntro
l
Ham
ed K
alho
ri
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Notes………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………….
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13:30 13:45 15
Study on the Influence of Structural
Nonlinearity on the Performance of
Multi-Unit Impact Damper
36
Loosening Detection of a Bolted Joint
Based on Monitoring Dynamic
Characteristics in the Ultrasonic
Frequency Region
181
Structure optimization of Noise and
Vibration Performance using FRF
Baseline
110
A hybrid modeling approach to
accurately predict vehicle occupant
vibration discomfort
13:45 14:00 222
Dynamic property optimization of a
vibration isolator with quasi-zero
stiffness
221Gas Turbine Fault Detection Using A
Self-Organising Map55
Structural-acoustic coupled analysis
by concentrated mass model8
Handling dynamics of an ultra-
lightweight vehicle during load
variation
14:00 14:15 18
Performance of Smart Viscoelastic
Damper based on Electrorheological
Elastomers
189
A Comparative Analysis Between EMD
and VMD Based Tacho-less Order
Tracking Techniques for Fault
Detection in Gears
172
Evaluation of Isolated Dynamic
Properties of the Component
Connected with Main Structure
188A hybrid electromechanical engine
mount design
14:15 14:30 19
Experimental study on seismic
behavior of buckling restrained shear
plate dampers under high axial loads
86
An efficient indicator for defect
detection in concrete structures by
rotary hammering
130Modeling of Complex Modes with
Wave-Based Scaling134
Towards overcoming the challenges
of the prediction of brake squeal
propensity
14:30 14:45 71
Investigation on Mitigation of
Nonlinear Parametric Vibration of
Stay Cable with Super-Long Span
210
Pitting Fault Severity Diagnosis of
Spur Gears using Vibration and
Acoustic Emission Sensor
Measurements
139
Simulative determination of ideal
fluid properties for an automatic ball
balancer under different run-up
scenarios
223TPA Synthesis of Pass-By Noise by IIR
Filters
14:45 15:00 158
Periodic beam lattice with negative
stiffness for low frequency vibration
attenuation
58
A New Testing Method for Bolt
Loosening with Transmitted
Ultrasonic Pulse
43
Motion and vibration control of
automotive drivetrain with control
cycle limitation
15:00 15:30
Ka
imin
g B
i
Com
puta
tiona
l met
hods
of v
ibra
tions
I
No
-Ch
eo
l P
ark
Free presentation only slot available!
Monday 18th November (afternoon)
Vehi
cle
syst
em d
ynam
ics
and
cont
rol I
Ric
ha
rd M
ark
ert
"Kangaroo" (CB11.00.405)
Exhibition & coffee break
"Dingo" (CB11.06.408)"Koala" (CB10.03.500)"Wombat" (CB11.B1.101)
Stru
ctur
al h
ealth
and
mac
hine
con
ditio
n m
onito
ring
Ph
ilip
pe
Ba
nle
ieu
l
Rece
nt A
dvan
ces o
n Vi
brat
ion
Cont
rol o
f Eng
inee
ring
Stru
ctur
es I
Time
20
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15:30 15:45 24Wind-induced vibration control of a constructing bridge tower based on
MRE tuned mass damper149
Fabrication and Properties of Piezoelectric Fiber Composites for
Structural Vibration Control Applications
205Vibration Force Transmissibility of a Rotor-Stator System with Potential
Rub-Impact230
Eliminating the influence of additional sensor mass on structural
natural frequency in the modal experiment
15:45 16:00 7
Building Vibration Suppression through a Magnetorheological
Variable Resonance Pendulum Tuned Mass Damper
207Vibration analysis of harmonically
excited antisymmetric cross-ply and angle-ply laminated composite plates
177 Rotordynamic force coefficients for open and shrouded impellers
14Study for the Mechanism of Lateral-Torsional Coupled Vibration of the Propulsion Shaft in a Naval Vessel
16:00 16:15 22
Using Rotational Inertia Dampers to Control Heave and Pitch Motions of Semi-Submersible Platforms in the
Shallow Sea
67Analysis of influence of Multilayer
ceramic capacitor mounting method on circuit board vibration
54
Vibration analysis of a rotating flywheel/flexible coupling system
with angular misalignment and rubbing using smoothed pseudo
Wigner–Ville distributions
81 Classification of Characteristic Modes for Vibration Reduction
16:15 16:30 159Design of a quasi-zero stiffness
system based on electromagnetic vibration isolation
141Vibration reduction of a composite plate with inertial nonlinear energy
sink236
Influence of Unbalance Angle and Eccentricity on the Vibration of a
Cracked Rotor69
Vision-based Modal Analysis of Hyper-Nyquist Frequency Range using Time-phase Transformation
16:30 16:45 170
Numerical Simulation of Vortex Induced Vibration of a Steel Bridge Tower Based on Bidirectional Fluid-
Solid Interaction
4Stability and Hopf Bifurcation of a
New Four Dimensional Hyper-Chaotic System
183Synchronous Blade Vibration
Analysis Method Using Blade Tip Timing Method
75
Experimental Investigation on the Effect of Tuned Mass Damper on
Mode Coupling Chatter in Turning Process of Thin-Walled Cylindrical
Workpiece
16:45 17:00 25 Output Reachable Set Estimation for Singular Seat Suspension Systems
11
Accuracy Improvement to the Identified Modal Parameters of Systems with General Viscous
Damping
17:15 18:15
18:30 20:00
Roto
r dyn
amics
I
Jaro
slav
Zap
omel
Steering Committee Meeting "Dingo" (CB11.06.408)
Time "Wombat" (CB11.B1.101)
Free presentation only slot available!
Dyn
amic
s an
d vi
brat
ion
of c
ompo
site
and
nan
o-co
mpo
site
st
ruct
ures
"Dingo" (CB11.06.408)"Koala" (CB10.03.500)
Expe
rimen
tal m
odal
test
ing
and
anal
ysis
Jasp
reet
Dhu
pia
Free presentation only slot available!
Eung
-Soo
Shi
nPlenary Lecture - Prof. No-Cheol Park, Yonsei University - "Analysis and Reduction of Vibration in Information Technology Devices"
"Kangaroo"
Rece
nt A
dvan
ces
on V
ibra
tion
Cont
rol o
f Eng
inee
ring
Stru
ctur
es II
Xufe
ng D
ong
Monday 18th November (evening)
"Kangaroo" (CB11.00.405)
21
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8:00 8:30
8:30 9:30
9:30 9:45 28Modelling and Vibration Analysis of a
Parallel Hydraulic Hybrid Vehicle119
Development of a tuning algorithm
for a dynamic vibration absorber
with a variable stiffness property
152
Transient simulation of a rotor
supported in partially filled
herringbone grooved journal
bearings using the narrow groove
theory - boundary conditions
169
Two Configurations of Using A Tuned
Mass Damper to Harvest Vehicle
Vertical Vibration Energy
9:45 10:00 174Model Validation of a Vehicle Fuel
Tank for Modal Analysis35
Proposition of isolation table
considering the long-period
earthquake ground motion (Method
of changing natural frequency of
isolation system with additional
171
Suppression of friction-induced
vibration in rotary sliding system
using lateral spin sliding
212
Enhanced Vibration Energy
Harvesting Using Mechanical
Stoppers and Parametric Resonances
10:00 10:15 197
Development of Suspension Seat
Using the Magneto-Spring and Free
Play Damper
79
Experimental vibration analysis of
seismic isolation system using
inertial mass damper
68Experimental Estimation of Friction
Characteristic of Annular Plain Seal227
Galerkin analyses of piezoelectric
energy harvesting based on super-
harmonic resonances
10:15 10:30 84Influence of air pressure on vibration
characteristics of passenger car tires111
Development of Sliding-Type Semi-
Active Dynamic Vibration Absorber
using Active Electromagnetic Force
146
The vibration and forces control
during the rotor rubbing by
application of magnetically sensitive
fluids lubricating the rotor bearings
78Study on Operational Energy Model
Construction
10:30 10:45 59Efficiency Analyze of a Dual-motor
Electric Vehicle Powertrain215
Development of a vibration isolator
using air suspensions with slit
restrictions
234Vibration-based Uniform Curvature
Piezoelectric Energy Harvester
10:45 11:00 224
Virtual Sensing Application Cases
Exploiting Various Degrees Of Model
Complexity
216
Vibration Isolation Performance of
an LQR-stabilised Planar Quasi-zero
Stiffness Magnetic Levitation System
145
Parametric Study of Piezoelectric
Energy Harvester under Fixed-Free
Boundary Condition
11:00 11:30
Time "Kangaroo" (CB11.00.405)
Registration (UTS Building 11, L0 Foyer)
Tuesday 19th November (morning)
Free presentation only slot available!
Free presentation only slot available!
Vehi
cle
syst
em d
ynam
ics
and
cont
rol I
I
Vibr
atio
n is
olat
ion
and
redu
ctio
n
Ener
gy h
arve
stin
g sy
stem
s
Mo
ha
mm
ad
Fa
rd
To
shih
iko
Ko
ma
tsu
zaki
"Dingo" (CB11.06.408)"Koala" (CB10.03.500)"Wombat" (CB11.B1.101)
Ho
ng
He
e Y
oo
Roto
r dyn
amic
s II
Qia
n D
ing
Plenary Lecture - Prof. Daolin Xu, Hunan University - "Dynamics and Stability of Modularized Floating Structures""Kangaroo"
Exhibition & coffee break sponsored by Siemens Digital Industries Software
22
Notes………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………….
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11:30 11:45 33Control of Optimal Motion Form of a
Bipedal Space Robot used in the Moon Base by Neural Oscillators
37Dynamic Tension Analysis for
Governor Rope in Elevator System96
Snowboard Simulation with Distinct Element Method and Finite Element
Method 44A numerical study on active noise
radiation control between two parallel reflecting surfaces
11:45 12:00 42
Energetic Consideration on the Occurrence Condition of Self-
Synchronization in Two Unbalanced Rotors
63Study on Rail Corrugation Development Mechanisms
187Estimation of the Main Transfer
Function of Ultrasonic Transducer Array
175On the Feasibility of Transformer Insulation Aging Detection with
Vibration Measurements
12:00 12:15 29Synchronized behavior of networked
harmonic oscillators with sampled position states and input delays
62Simulation of cooperative objects
transportation system controlled by the network of swarm
168
Finite element modelling and dynamic stability analysis of a
functionally graded rotor shaft-bearing system
178Study on equivalent effective
distance of point sound source in substation
12:15 12:30 103Bifurcation analysis and energy landscapes of a synthetic gene
regulatory network109
Effect of a Carrier Block Shape on the Speed Fluctuation in a Cable
Transport System199
Development of Physical Condition Fluctuation Prediction Model Using
Trunk Biosignals190
Transformer Acoustic Equivalent Model in Engineering Application
12:30 12:45 97Designing Crystallization-Inspired Large-scale Self-assembly Swarm
Robotics98
Hydraulic Control Design for Digging Trajectory Tracking of Scale Model
Excavator57
Changes in Peripheral Circulation and Autonomic Nervous Activity in the Elderly Exposed to Acute Whole-
Body Vibration
179Simulation Study on Noise
Reduction Effect of Substation Noise Barrier
12:45 13:00 87Output analysis of neural oscillator networks having lateral inhibition
structures239
Non-Destructive Technologies for Stress Free Temperature
Measurement of Continuous Welded Rails
115Effects of Vibration on Seated Human
Drowsiness/Alertness225
Research on Substation Noise Intelligent Monitoring System Based
on Internet of Things
13:00 13:15 45Cooperative Adaptive Formation
Control For Uncertain Multi-nonholonomic Mobile Robots
88Applicability of Automated Digging
Algorithm on Slope Ground for Hydraulic Excavators
13:00 14:00
"Kangaroo" (CB11.00.405) "Wombat" (CB11.B1.101) "Koala" (CB10.03.500) "Dingo" (CB11.06.408)
Exhibition & lunch break
Time
No
ise
, V
ibra
tio
n a
nd
th
eir
Ap
pli
cati
on
s in
Ele
ctri
city
Po
we
r S
yst
em
s I
Tada
shi K
omat
su
Dy
na
mic
s o
f tr
an
spo
rt s
yst
em
s
Hel
en W
u
Co
mp
uta
tio
na
l m
eth
od
s o
f v
ibra
tio
ns
II
No-
Cheo
l Par
k
Dy
na
mic
s a
nd
co
ntr
ol o
f n
etw
ork
ed
sy
ste
ms
Hu
ma
n B
od
y V
ibra
tio
n
Yong
-Hw
a Pa
rk Yuxi
ng W
ang;
Lin
ke Z
hang
Tuesday 19th November (afternoon)
23
Notes………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………….
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14:00 15:00
15:00 15:30
15:30 15:45 9Measuring Road Conditions with an
IMU and GPS Monitoring System108
Research and development of laminated bearing using
urethane elastomer for base isolation
166Research on Sound Power Prediction
Method of Transformer
15:45 16:00 89
A novel controllable electromagnetic variable inertance
device for vehicle vibration reduction
144Design Approach of Laminated
Rubber Bearings for Seismic Isolation of Plant Equipment
120
Fault Recognition of Induction Motor Based on Convolutional
Neural Network Using Stator Current Signal
16:00 16:15 185Conceptual Design Model of Road
Noise on Automotive Body in White Based on Energy Propagation
10
Effect on Rocking Vibration due to Characteristics Dispersion of
Three-Dimensional Seismic Isolation System
228Sound transmission of beam
stiffened thick plates
16:15 16:30 27Modeling and Measuring of Generated Axial Force for
Automotive Drive Shaft Systems82
A Study on coupled vibration between flexible body and rigid body in tethered system
140Vibration analysis of a viscoelastic
beam equipped with a resilient impact damper
16:30 16:45 208Optimization on energy
management strategy with vibration control for hybrid vehicles
20Vibration model for an infant-carriage system
102Vibration analysis of a beam with both ends fixed using molecular
dynamics method
16:45 17:00 40Torque Control of Speed Coupled Dual Motor Powertrain in Electric
Vehicles74
Dynamic Simulation of Baby Carriage Under Running Condition: Analyzing Force Given to Driver’s Arm
233Numerical analysis of dynamic
hysteresis in tape springs as flexible appendages in space applications
18:00 22:00
"Dingo" (CB11.06.408)"Kangaroo" (CB11.00.405)
Vehi
cle sy
stem
dyn
amics
and
cont
rol I
II
Time
Plenary Lecture - Prof. Shigehiko Kaneko, University of Tokyo - "A Cardiovascular System Model for Detecting Sudden Driver’s Health Condition Change and its Application""Kangaroo"
Exhibition & coffee break
Itsur
o Ka
jiwar
a
Tuesday 19th November (evening)
Conference Gala Dinner (please refer to full programme for details)
Youn
gjin
Par
k &
Wen
bin
Shan
ggua
n
Noi
se, V
ibra
tion
and
thei
r Ap
plic
atio
ns in
Ele
ctric
ity P
ower
Vibr
atio
n is
olat
ion
and
redu
ctio
n
Tian
ran
(Ter
ry) L
in
Tosh
ihik
o Ko
mat
suza
kiTa
ichi
Shi
iba
Vibr
atio
n an
d co
ntro
l of b
eam
s,
plat
es a
nd s
hells
II
Mul
tibod
y dy
nam
ics
"Wombat" (CB11.B1.101) "Koala" (CB10.03.500)
24
Notes………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………….
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8:00 8:30
8:30 9:30
9:30 9:45 93Consideration of Traveling Waves Using Superposition of Vibration
Modes167
Comparison of the input identification methods for the rigid
structure mounted on the elastic support
213Flow-Induced Dynamics of
Bifurcated Coronary Arteries101
A Study of the Vibration Reduction Effect of Sound Absorbing Material
within Acoustic Box
9:45 10:00 39Numerical Analysis Method for A Flexible Tether with Time-varying Length across A Variable Boundary
160Iterative Learning Control for Vision-
Based Robotic Grasping38
Contribution of F-actin to Sensing Mechanism of Vibration in
Mouse Fibroblastoid cell136
Experimental study on the effects of pickguard material on the sound
quality of electric guitars
10:00 10:15 90
Identification of modal properties using linear fit method with
polynomial approximation of residue term of frequency response
function.
77Floor Response Spectrum of Nuclear Power Plant Structures Considering
Soil-Structure Interaction184
Vibration characteristics of seated human body under
exposure to vertical whole-body vibration in wide frequency range
61Influence of Pulverized Material on
Vibration and Sound Characteristics of an Operating Ball Mill
10:15 10:30 99
Analysis of transient response moment of a SDOF system under non-
Gaussian random excitation by the equivalent non-Gaussian excitation
method
94Real-time identification of vehicle
motion-modes214
Effect of Blood Flow Models on the Flow-Induced Vibrations of
Coronary Arteries
66
Three-dimensional strain calculation of rubber composite with fiber-
shaped particles by feature point tracking using X-ray computed
tomography
10:30 10:45 32Study of the effect of shape
processing of a specimen on the modal properties
46
Estimation of normalized eigenmodes and natural frequencies by using the effect of accelerometers
mass
193A QZS isolator for low-frequency
vibration isolation during neonatal transport
106
Experimental Study on a Passive Vibration Isolator Utilizing Dynamic
Characteristics of a Post-Buckled Shape Memory Alloy
10:45 11:00 34Identification of statistical
characteristics of random excitation acting on machines or structures
244A Modified Helmholtz Resonator for Measurement of the Elastic
Coefficient of Human Skin
11:00 11:30 Exhibition & coffee break
Dyn
amic
mod
el u
pdat
ing
and
syst
em id
entif
icat
ion
Eric
Hah
nFree presentation only slot available!
Hum
an B
ody
Vibr
atio
n
Yong
-Hw
a Pa
rk
Theo
retic
al a
naly
sis
Seba
stia
n O
bers
t
Dyn
amic
beh
avio
ur o
f mat
eria
ls a
nd v
ibra
tion
abso
rbin
g m
ater
ials
Free presentation only slot available!
Plenary Lecture - Dr Tore Butlin, University of Cambridge - "Nonlinearity in structural dynamics: when does it matter?""Kangaroo"
Registration (UTS Building 11, L0 Foyer)
"Kangaroo" (CB11.00.405)
Xiao
xu Z
hang
Wednesday 20th November (morning)
Time "Platypus" (CB10.03.490)"Koala" (CB10.03.500)"Wombat" (CB11.B1.101)
25
Notes………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………….
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11:30 11:45 51Optimal control of acoustic radiation
power for a triple-walled structure105
Semi-active Vibration Suppression of a Structure by a Shear-type Damper Using Magnetorheological Grease
211Characterization of Active
Microcantilevers Using Laser Doppler Vibrometry
11:45 12:00 232
Elimination of the High Frequency Whistle Noise of a Residential Ducted
Air-Conditioning through its Dedicated Pipe Muffler Design
85
A comparison of vibration control performance for the electromagnetic
damper with various control strategies
194Debonding growth monitoring
through ultrasonic guided waves field imaging
12:00 12:15 237
A Novel and Intelligent Multi-Mode Switching Control Strategy of Active
Suspension Systems with Energy Regeneration
49
Experiment and Numerical Investigations on a Vertical Isolation
System with Quasi-zero Stiffness Property
92Using a Laser Doppler Vibrometer to
Estimate Sound Pressure in Air
12:15 12:30 137
Cavity Noise Reduction by a Flexible Plate Embedded with 2-D Acoustic
Black Holes 53
Vibration Control of an Overhead Crane by Elimination of the Natural
Frequency Component (Robust Approach against Uncertainty in
Natural Frequency)
203Experimental and Numerical Modal Analysis of an Axial Compressor Blisk
12:30 12:45 47
Numerical and Experimental Benchmark Solutions on Vibration and Sound Radiation of an Acoustic
Black Hole Plate
226Development of an active mass damper driven by an amplitude
modulated signal209
Effectiveness of using damping as a parameter to detect impact damages
in GFRP plates
12:45 13:00 235Analysis of Floor Impact Noise
Isolation Performance by Various Floor Plan Structures of Apartment
52Response reduction using anti-
resonance point of seismic isolation device with inertial mass damper
64Experimental Investigation on
Generation Mechanism of Friction Vibration in Toner Fixing Device
13:00 13:15 50
Design of the Circular-Type Pod Silencer with Annular Two-Layered Air-Passages for a High-Pressure Axial Flow Fan
195Attitude Control System Simulator Design Considering the Controller and the Kalman Filter Performance
13:15 14:00
13:30 14:30
14:00 15:30
15:30 16:00
16:00 17:00
"Wombat" (CB11.B1.101) "Platypus" (CB10.03.490)"Koala" (CB10.03.500)"Kangaroo" (CB11.00.405)
Closing Ceremony and Farewell Cocktails
Transportation to UTS City Centre Campus - coaches to leave from Tech Lab at 4 and 4.30pm
Ap
plic
ati
on
s a
nd
Ad
va
nce
s in
La
ser
Do
pp
ler
Vib
rom
etr
y
Ben
Halk
on
Free presentation only slot available!
Exhibition & lunch break
Transportation to UTS Tech Lab - coaches to leave from Jones St at 1.30 and 2pm
UTS Tech Lab tours
Act
ive
an
d p
ass
ive
vib
rati
on
co
ntr
ol
Jaih
yuk
Hwan
g
No
ise
an
d v
ibra
tio
n c
on
tro
l
Hiro
yuki
Iwam
oto
& T
erry
Lin
Time
Wednesday 20th November (afternoon)
26
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27
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Guidelines for session chairs, speakers and other delegates The APVC 2019 is running on a tight schedule with multiple parallel sessions organised among other, whole of group activities (plenary sessions, exhibition and refreshment breaks, entertainment events etc.). We greatly appreciate your cooperation in sticking to the timing allocated to allow participants to plan their attendance at the talks of interest to them and to allow them to move freely between sessions without missing the start/end of the talks. In order to allow this to happen, we would like to bring to your attention some points of interest and recommendations as follows:
Each talk has been allocated a time slot of 15 minutes: 10-12 minutes for the speaker’s Oral Presentation and 3-5 minutes for some short questions and answers and change-over to the next speaker;
Speakers will be notified as they approach their presentation time limit (i.e. after 10 minutes);
Should a talk and questions end earlier than scheduled, the following talk will not commence until the scheduled start time to enable delegates attending from an alternative room to arrive;
We recommend that speakers prepare a PowerPoint presentation with approx. one content slide (not inc. title, section, thank you, etc. slides) per 1-2 mins of their talk and a maximum of 6-10 content slides in total;
Session chairs will very briefly introduce the speaker by name only, leaving the speaker to introduce their paper/presentation title, affiliation etc. through their title slide;
A computer running Windows 10 operating system / Microsoft Office 365 with connection to a projector system will be available within each conference room;
Presenters should report to the session chair in the conference room in the break immediately (10 mins) prior to their session;
Presenters should upload their presentation to the computer and confirm that it runs as expected, including fonts and symbols display correctly, transitions and videos play as expected, and audio, where included, is at an appropriate level;
Should presenters wish to use their own laptop for presentation they must ensure compatibility with the projection system prior to the start of the session and make every effort to minimise the changeover between their slot and those either side.
Once again, we kindly ask for your consideration and cooperation to ensure the success and smooth operation of the APVC 2019 session schedule.
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Entertainment
Welcome Reception details
We are delighted to invite you to join us on the UTS Alumni Lawn from 6pm until 8pm on Sun 17th November for a Welcome Reception with live indigenous entertainment, alcoholic and soft beverages and indigenously themed canapes as follows:
Vegetable Arancini Balls VF
Bite size Warrigal Green Frittata DF, VF & GF
Emu Cocktail Sausage Rolls
Crocodile Puffs Please first present yourself for early registration from 5pm within the sign posted UTS Building 1, Level 3 Foyer.
= Designated service area signs (bollards will be linked)
= Designated Service Area Pink
Entry/Exit point
Bar
Table for drinks
4x tables for food (final location TBC)
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Gala Dinner details
We are pleased to advise that the conference gala dinner will be held on board the Blue Room 85ft glass wall Cruise Boat providing 3 hours of spectacular 360-degree views of Sydney Harbour including the iconic Harbour Bridge, Opera House and Taronga Zoo.
Schedule and menu 18:00 Boarding at King Street Wharf. Beverages served on the top deck. 18:15 Vessel departs. Drinks and canapes (Huon valley smoked salmon tartlets, Golden-fried king prawns +
szechuan salt & pepper, Crispy vegetable spring rolls). 18:45 Entree (alternate serves) Cherry glazed duck breast, watermelon + chilli salad (gf) OR Chilli + garlic masala
king prawns + couscous salad. 19:15 Mains (alternate serves) Prime Australian grain-fed beef tenderloin + kipfler potatoes + asparagus spears
+ exotic mushrooms OR Snapper fillet grilled + king prawns + ginger + soy + shallot. 20:00 Desserts (alternate serves) Black forest log + chocolate soil + dried raspberry OR Salted caramel popcorn
+ passion fruit yoghurt + pomegranate. 21:00 Disembarking at King Street Wharf. During the dinner and cruise we will be entertained by the Steve Morrison Jazz Band.
Note 1: this is a ticketed event – you will need to present your ticket upon boarding the vessel. Note 2: transfers have been organized to the departure point from UTS very shortly following the technical sessions; please ensure your timely arrival since all coaches need to be filled and departure must be prompt to ensure we arrive in time for boarding and the scheduled departure. Return to hotels will be guided, on foot.
CLIENT DETAILS
NAME
TERRY BROW N
EVENT / OCCASION
GALA DINNER FOR CONFERENCE
COMPANY
UNIVERSITY OF TECHNOLOGY SYDNEY
CRUISE DETAILS
VESSEL
BLUE ROOM
CRUISE DATE
TUESDAY, 19 NOVEMBER 2019
NUMBER OF GUESTS
100
BO ARD S
18 :0 0D EPARTS
18 :15RETU RN S
21:30W H ARF
KIN G ST W H ARF
BLUE ROOM GLASS BOAT DINNER
QUOTE NUMBER
Q14516PROPOSAL DATE
WEDNESDAY, 03 JULY 2019
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UTS Tech Lab tours and Farewell Cocktail details
Please join us for a hosted visit to UTS Tech Lab with tours, talks and cocktails from 1.30 to 4.30 pm on Wed 20th. Coaches will depart from City campus at 1.30 and 2pm, from Jones St, returning to City campus afterwards.
What is Tech Lab? UTS Tech Lab is a new-generation facility that disrupts traditional university approaches to research. The first of its type in Australia, Tech Lab is a 9000 m2 facility that is designed to bring university and industry together to innovate. Tech Lab represents a significant investment in new cutting-edge research facilities in order to support collaborative applied research that will enhance impact and contribute to the growth of the local and national economy. Working together under one roof, Tech Lab academics, researchers, technical staff and students support innovation and technological development by working with industry partners and their supply chains. Its design facilitates innovative transdisciplinary research on a large scale, focusing on digital transformation, the Internet of Things, smart cities, industry 4.0 and advanced manufacturing. This solutions-based, technology-led approach is promoted through innovative ways of working that support engagement between industry and academia. For example, Tech Lab offers many different ways of collaborating, including a membership model where companies pay an annual subscription fee to co-locate and become part of the Tech Lab community. This supports a focus on delivering research impact as well as the development of new opportunities for students to work on industry-led projects.
Why is Tech Lab different? Tech Lab is the only facility in Australia that co-locates large engineering infrastructure with laboratories dedicated to communications, sensor development, and the computer sciences, including data analytics and artificial intelligence. Cutting-edge technology is available in every lab including equipment which is unique to Australia or the Asia-Pacific region. This allows industry partners to undertake full-scale testing, linking the technologies underpinning digital transformation within the one facility. The same facility provides access to academic expertise to help shape the project vision and oversee its execution, plus access to talent including interns, PhD students and recent graduates. Tech Lab membership options are designed to deliberately disrupt the traditional university approach. It is solutions-focussed and delivers commercial outcomes for partners whilst driving impact for UTS research.
Ready for the future The Internet of Things (IoT) is a strategic research focus for UTS Tech Lab, linking together the multidisciplinary research strengths within its walls to foster a new capacity for technological impact in countless arenas. Our laboratories and capabilities span electromagnetics, networking and communications, electrical power and energy, data analytics, photonics, autonomous systems, acoustics, multimedia and video surveillance, and civil and structural engineering.
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Appendix A – Faculty of Engineering and IT Emergency Procedures
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Appendix B – Faculty of Engineering and IT Car Parking Options
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Appendix C – UTS Event WiFi
UTS EVENT WIFI
HOW TO CONNECT
It is important to note that many company laptops have their network settings restricted by their
organisation to stop staff from connecting to other networks. This can block them from attaching to
our network even with the correct access code. They will need to have their settings amended by
their company IT admin before coming onsite to UTS.
Choose UTS-Guest from the list of networks shown on your device. You will then get the following
pop up:
Click on the “Attending a Conference” link
and a new pop up will appear that looks like
this:
Then enter the access code “APVC2019”
and accept the terms of use. Your
connection will then be active.
If the registration page does not automatically
pop up please enter this link into your browser:
https://nac.itd.uts.edu.au/guest/Sponsor.php