James Ransley is a physicist with experience in microelectromechanical systems and acoustic inkjet technology. He has a track record of innovation through analytical and numerical modeling of complex systems. He holds a PhD in materials science from Cambridge University and has worked in both academia and industry. He is looking for a new role where he can continue applying physics principles.
Independent Component Analysis for Filtering Airwaves in Seabed Logging Appli...IJASCSE
Marine controlled source electromagnetic (CSEM) sensing method used for the detection of hydrocarbons based reservoirs in seabed logging application does not perform well due to the presence of the airwaves (or sea-surface). These airwaves interfere with the signal from the subsurface, as a result masks the receiver response at larger offsets. The task is to identify these air waves and the way they interact, and to filter them out. In this paper, a popular method for counteracting with the above stated problem scenario is Independent Component Analysis (ICA). Independent component analysis (ICA) is a statistical method for transforming an observed multidimensional or multivariate dataset into its constituent components (sources) that are statistically as independent from each other as possible. ICA-type de-convolution algorithm that is FASTICA is considered for mixed signals de-convolution and considered convenient depending upon the nature of the source and noise model. The results from the FASTICA algorithm are shown and evaluated. In this paper, we present the FASTICA algorithm for the seabed logging application.
Independent Component Analysis for Filtering Airwaves in Seabed Logging Appli...IJASCSE
Marine controlled source electromagnetic (CSEM) sensing method used for the detection of hydrocarbons based reservoirs in seabed logging application does not perform well due to the presence of the airwaves (or sea-surface). These airwaves interfere with the signal from the subsurface, as a result masks the receiver response at larger offsets. The task is to identify these air waves and the way they interact, and to filter them out. In this paper, a popular method for counteracting with the above stated problem scenario is Independent Component Analysis (ICA). Independent component analysis (ICA) is a statistical method for transforming an observed multidimensional or multivariate dataset into its constituent components (sources) that are statistically as independent from each other as possible. ICA-type de-convolution algorithm that is FASTICA is considered for mixed signals de-convolution and considered convenient depending upon the nature of the source and noise model. The results from the FASTICA algorithm are shown and evaluated. In this paper, we present the FASTICA algorithm for the seabed logging application.
Succession “Losers”: What Happens to Executives Passed Over for the CEO Job?
By David F. Larcker, Stephen A. Miles, and Brian Tayan
Stanford Closer Look Series
Overview:
Shareholders pay considerable attention to the choice of executive selected as the new CEO whenever a change in leadership takes place. However, without an inside look at the leading candidates to assume the CEO role, it is difficult for shareholders to tell whether the board has made the correct choice. In this Closer Look, we examine CEO succession events among the largest 100 companies over a ten-year period to determine what happens to the executives who were not selected (i.e., the “succession losers”) and how they perform relative to those who were selected (the “succession winners”).
We ask:
• Are the executives selected for the CEO role really better than those passed over?
• What are the implications for understanding the labor market for executive talent?
• Are differences in performance due to operating conditions or quality of available talent?
• Are boards better at identifying CEO talent than other research generally suggests?
The impact of innovation on travel and tourism industries (World Travel Marke...Brian Solis
From the impact of Pokemon Go on Silicon Valley to artificial intelligence, futurist Brian Solis talks to Mathew Parsons of World Travel Market about the future of travel, tourism and hospitality.
We’re all trying to find that idea or spark that will turn a good project into a great project. Creativity plays a huge role in the outcome of our work. Harnessing the power of collaboration and open source, we can make great strides towards excellence. Not just for designers, this talk can be applicable to many different roles – even development. In this talk, Seasoned Creative Director Sara Cannon is going to share some secrets about creative methodology, collaboration, and the strong role that open source can play in our work.
The Six Highest Performing B2B Blog Post FormatsBarry Feldman
If your B2B blogging goals include earning social media shares and backlinks to boost your search rankings, this infographic lists the size best approaches.
Each technological age has been marked by a shift in how the industrial platform enables companies to rethink their business processes and create wealth. In the talk I argue that we are limiting our view of what this next industrial/digital age can offer because of how we read, measure and through that perceive the world (how we cherry pick data). Companies are locked in metrics and quantitative measures, data that can fit into a spreadsheet. And by that they see the digital transformation merely as an efficiency tool to the fossil fuel age. But we need to stretch further…
NUMERICAL STUDIES OF TRAPEZOIDAL PROTOTYPE AUDITORY MEMBRANE (PAM)IJCSEA Journal
In this research, we developed numerically a Prototype Auditory Membrane (PAM) for a fully implantable and self contained artificial cochlea. Cochleae are one of the important organs for hearing in the human and animals. Material of the prototype and implant of PAM are made of Polyvinylidene fluoride (PVDF)- Kureha, Japan which is fabricated using MEMS and thin film technologies. Another important thing in the characteristic of the PAM is not only convert the acoustic wave into electric signal but also the frequency selectivity. The thickness, Young’s modulus and density of the PAM are 40 μm, 4 GPa, and 1.79 103 kg/m3, respectively. The shape and dimension of the PAM is trapezoidal with the width is linearly changed from 2.0 to 4.0 mm with the length are 30 mm. Numerically, we develop the model of PAM is based on commercial CFD software, Fluent 6.3.26 and Gambit 2.4.6. The geometry model of the PAM consists of one-sided blocks of quadrilateral elements for 2D model and tetrahedral elements for 3 D model respectively. In this study we set the flow as laminar and carried out using unsteady time dependent calculation. The results show that the frequency selectivity of the membrane is detected on the membrane surface.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Methodical Design of Vibration Energy Harvesting SystemsDirk Mayer
The design of practical vibration energy harvesting systems is not always straight forward. However, following a methodical design process can ensure a final system design that is up to the task. This lecture will discuss a methodical design process for vibration energy harvesting systems used at the FraunhoferLBF. First the available vibration energy and its spectral characteristics are estimated; then the energy harvesting system and its key components (energy-harvester, -storage and -management) are designed taking into account the vibration energy available, the electrical energy demand of the task and mechanical and/or other loads. Finally operational and durability tests are conducted in the laboratory.
4.5.12, Lightning Talks, Main Hall: Performance Measurement of MEMS Elements for Information Security of G-Cloud Channels (Roumiana Ilieva, Silvia Bobeva) #CeDEM12
Succession “Losers”: What Happens to Executives Passed Over for the CEO Job?
By David F. Larcker, Stephen A. Miles, and Brian Tayan
Stanford Closer Look Series
Overview:
Shareholders pay considerable attention to the choice of executive selected as the new CEO whenever a change in leadership takes place. However, without an inside look at the leading candidates to assume the CEO role, it is difficult for shareholders to tell whether the board has made the correct choice. In this Closer Look, we examine CEO succession events among the largest 100 companies over a ten-year period to determine what happens to the executives who were not selected (i.e., the “succession losers”) and how they perform relative to those who were selected (the “succession winners”).
We ask:
• Are the executives selected for the CEO role really better than those passed over?
• What are the implications for understanding the labor market for executive talent?
• Are differences in performance due to operating conditions or quality of available talent?
• Are boards better at identifying CEO talent than other research generally suggests?
The impact of innovation on travel and tourism industries (World Travel Marke...Brian Solis
From the impact of Pokemon Go on Silicon Valley to artificial intelligence, futurist Brian Solis talks to Mathew Parsons of World Travel Market about the future of travel, tourism and hospitality.
We’re all trying to find that idea or spark that will turn a good project into a great project. Creativity plays a huge role in the outcome of our work. Harnessing the power of collaboration and open source, we can make great strides towards excellence. Not just for designers, this talk can be applicable to many different roles – even development. In this talk, Seasoned Creative Director Sara Cannon is going to share some secrets about creative methodology, collaboration, and the strong role that open source can play in our work.
The Six Highest Performing B2B Blog Post FormatsBarry Feldman
If your B2B blogging goals include earning social media shares and backlinks to boost your search rankings, this infographic lists the size best approaches.
Each technological age has been marked by a shift in how the industrial platform enables companies to rethink their business processes and create wealth. In the talk I argue that we are limiting our view of what this next industrial/digital age can offer because of how we read, measure and through that perceive the world (how we cherry pick data). Companies are locked in metrics and quantitative measures, data that can fit into a spreadsheet. And by that they see the digital transformation merely as an efficiency tool to the fossil fuel age. But we need to stretch further…
NUMERICAL STUDIES OF TRAPEZOIDAL PROTOTYPE AUDITORY MEMBRANE (PAM)IJCSEA Journal
In this research, we developed numerically a Prototype Auditory Membrane (PAM) for a fully implantable and self contained artificial cochlea. Cochleae are one of the important organs for hearing in the human and animals. Material of the prototype and implant of PAM are made of Polyvinylidene fluoride (PVDF)- Kureha, Japan which is fabricated using MEMS and thin film technologies. Another important thing in the characteristic of the PAM is not only convert the acoustic wave into electric signal but also the frequency selectivity. The thickness, Young’s modulus and density of the PAM are 40 μm, 4 GPa, and 1.79 103 kg/m3, respectively. The shape and dimension of the PAM is trapezoidal with the width is linearly changed from 2.0 to 4.0 mm with the length are 30 mm. Numerically, we develop the model of PAM is based on commercial CFD software, Fluent 6.3.26 and Gambit 2.4.6. The geometry model of the PAM consists of one-sided blocks of quadrilateral elements for 2D model and tetrahedral elements for 3 D model respectively. In this study we set the flow as laminar and carried out using unsteady time dependent calculation. The results show that the frequency selectivity of the membrane is detected on the membrane surface.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Methodical Design of Vibration Energy Harvesting SystemsDirk Mayer
The design of practical vibration energy harvesting systems is not always straight forward. However, following a methodical design process can ensure a final system design that is up to the task. This lecture will discuss a methodical design process for vibration energy harvesting systems used at the FraunhoferLBF. First the available vibration energy and its spectral characteristics are estimated; then the energy harvesting system and its key components (energy-harvester, -storage and -management) are designed taking into account the vibration energy available, the electrical energy demand of the task and mechanical and/or other loads. Finally operational and durability tests are conducted in the laboratory.
4.5.12, Lightning Talks, Main Hall: Performance Measurement of MEMS Elements for Information Security of G-Cloud Channels (Roumiana Ilieva, Silvia Bobeva) #CeDEM12
Design of Vibration Test Fixture for Opto-Electronic EquipmentIJMERJOURNAL
ABSTRACT : In this paper an attempt is made in designing vibration test fixture for opto-electronic equipment. It can be achieved by formulating basic or preliminary 3D CAD assembled model followed by attaching material to its components. The analysis carried by defining the contact conditions of every part of it, defining the fixing conditions, applying loads virtually, good quality meshing, followed by optimization of the same by taking concurrence from the results of Linear Harmonic Structural Vibration Analysis. SolidworksSimulation premium software is used for modelling and solving the Linear Harmonic Structural vibration analysis for all Environmental Stress Screening (ESS) tests like vibration, shock for elimination of failures before physical testing. The comparison between experimental results and simulation results are presented in this paper.
Design of Vibration Test Fixture for Opto-Electronic Equipment
James Ransley Cv Linked In
1. James Ransley
A Cambridge trained physicist with experience in microelectromechanical systems currently
working with Xaar’s acoustic inkjet technology. I have a demonstrated track record of innovation, a
strong background in analytic and numerical modelling of complex systems and experience in
working across disciplines both in academia and in industry. I am looking to move to a role that will
enable me to continue to work with the physics that I have always enjoyed.
Education
1999-2003 Darwin College, Cambridge University, UK
PhD Materials Science (awarded July 2004)
The properties of grain boundaries in YBa2Cu3O7-δ. (Supervisor: Prof. J. E. Evetts)
1995-1999 Churchill College, Cambridge University, UK
BA Hons Natural Sciences (Physics) Class 2:1
Earlier courses included mathematics, geology and materials science.
1988-1995 Lord Wandsworth College, Hook, Hampshire, UK
1995 A-Levels: Maths (A), Adv. Maths (A), Physics (A), Biology (A)
1993 10 GCSEs (including English language and French): all grade A
Employment
2008-2010 Xaar PLC, Science Park, Cambridge, United Kingdom
Design / Applications Engineer (Current Position)
2004-2008 Nanoscience Centre, Engineering Department, Cambridge University, UK
Research Associate developing micromechanical sensors
2004-2006 MEMs technologies for the label free detection of biochemical molecules
2006-2007 Underground M3 Project
2007-2008 Enhanced Silicon Microresonator Oscillators (Depletion Layer Actuators)
Key Skills
Applying varied physics to practical devices:
Modelling dynamic fluid flow through print heads (laminar flow and water hammer), thermal
modelling of heat dissipation in devices, modelling electrostatically actuated devices, application of
semiconductor device physics to produce a mechanical actuator. Modelling of actuator coupling to
resonant systems. Systems approach for complex systems: using equivalent circuits for linear
systems coupled to electronics. Track record of innovation & creativity.
Modelling tools:
Strong record of analytic & numerical modelling (see publication record) with work in diverse fields
from tunnelling models for the complex band structures of the cuprates to modelling pressure
transients in print head back ends. Use of the Mathematica software package for detailed analytic &
numerical modelling. Use of MATLAB for numerical modelling & data analysis. Finite element
modelling within the COMSOL Multiphysics software package. Use of SPICE circuit analysis tools
for developing system models.
Precision measurements & product test against specification:
Experience of precision AC and DC device electrical characterisation, including use of network
analysers. Thermal measurements (thermocouples/thermal cameras). Measurement of mechanical
displacement with optical levers. Strain measurement. Liquid pressure measurements employing
pressure transmitters. Inkjet product test: drop landing accuracy, drop volume, drop velocity,
pressure/temperature/voltage window of operation etc. Data acquisition & processing with Labview
and National Instruments Hardware. Data analysis with Labview, MATLAB and Minitab statistical
software.
2. Product Design & Manufacture:
Strong background in MEMs device design and manufacture (including extensive clean room
experience). Experience with piezoelectric devices & manufacturing processes. Familiarity with
other mass production technologies (e.g. injection moulding, casting etc.). Experience of design for
manufacture. Trained user of Solidworks 3D CAD tool. Recently attended Cambridge University
IFM courses on new product development and project management.
Written and Verbal Communication:
Thesis commended for clarity of presentation and writing. Papers written in top journals (see
attached publication list). Co-wrote successful UK government grant (EPSRC grant:
EP/F009127/1). Invited to referee papers in Sensors and Actuators and for the Journal of Imaging
Science and Technology. Talks & invited talks at national and international conferences. Opened
oral session at Transducers ’07 (largest MEMs conference in 2007 with several thousand
participants).
Team work / Leadership / Mentoring:
Demonstrated ability to work effectively with interdisciplinary teams across discipline boundaries.
Worked successfully on projects across fields including: biotechnology, electronic engineering, civil
engineering, theory of condensed matter, mechanical engineering, manufacturing engineering, test
engineering & software development. Taught physics within the Cambridge University supervision
system. Organised Xaar’s company seminar program and taught internal course on FEA.
Conceived and managed 3 MPhil student projects in Cambridge University. Cross cultural
awareness through role overseeing Cambridge University’s international student welcome
programme as a graduate student (2001). President of a Cambridge University society (Christian
Graduate Society - 2002/2003).
Research and Development Record
Research and Development at Xaar PLC
Played a key technical role in the development of the Xaar electron
print head (shown on left) – which is currently being launched with
OEM distributors. Performed initial development of company
strategy to drive print heads which is now being rolled out across
all product lines. Developed system models for print head dampers
to control pressure in back end of head. Worked on design of print
head back ends including micro-fluidics and thermal performance.
Extensive involvement in design work for Xaar’s platform 3 product
range including exploring additional products to compliment the
successful 1001 head. Part of the team exploring options for Xaar’s
next product platform, which will be MEMs based. Invented a new
actuator technology that is currently being considered for patenting.
Depletion Layer Actuators
Invented & patented [11] an actuator that is highly compatible with
3.5
standard semiconductor processing technologies. Co-wrote grant to
3
explore the technology (EPSRC grant EP/F009127/1).
Amplitude (nm)
2.5
2 Demonstrated that the actuator performs as predicted by fabricating
1.5 Shottky diodes on AFM cantilevers and driving them at resonance
1 (see graph on the left). This work was published in Applied Physics
0.5 Letters [2] and was presented as the opening talk in the actuators
0 session at Transducers 2007 [3]. Researchers at Cornell have
5 10 15 20
Frequency (kHz) recently used these actuators to efficiently drive silicon MEMs
resonators at 3GHz.
3. Underground Infrastructure Monitoring
Played a key role at the start of a multidisciplinary project to install
wireless instrumentation in underground railway systems across
Europe (including the London Underground). Performed initial
design work on MEMs strain sensors (see left). Involved in
process design for producing narrow-gap tuning fork strain
sensors [1]. Initiated a project to investigate a new method to
harvest electromagnetic energy from ambient vibrations.
Developed model to predict the performance of energy harvesting
devices with arbitrary driving.
Comparison of SU8 and Silicon Cantilever Sensors
By applying a functional layer to one side of a cantilever a
chemical or biological sensor can be made. Molecules in the
functional layer respond to specific chemical stimuli by producing
an in plane surface stress – which causes the cantilevers to bend.
This work was performed in collaboration with biochemists at
UCL. Developed processes to fabricate SU8 cantilevers (image
on left shows some fabricated cantilevers, seen from the
underside). Performed the first comparison of polymer cantilevers
with their silicon counterparts [4].
High Frequency Capacitance Measurements of Grain Boundaries in Y1-xCaxBa2Cu2O7-δ
Measurement Frequency (GHz)
0 40 80 120 160 200 240 Developed a technique to use Josephson Junctions to measure
the capacitance of Y1-xCaxBa2Cu2O7-δ grain boundaries at low
Capacitance per unit area (Fm )
-2
1.8 Temperature:
J
4.2 K
temperatures and high frequencies. The figure on the left shows
1.6 15.0 K the capacitance of a grain boundary changing at lower frequencies
as a result of a sharp increase in the permittivity of the high
1.4
dielectric constant SrTiO3 substrate on which the grain boundary
1.2
was fabricated. Above 200GHz the intrinsic grain boundary
capacitance is measured. The temperature dependence of the
1
0 0.1 0.2 0.3 0.4 0.5
capacitance changes is consistent with the known high frequency
Return Voltage (mV) properties of SrTiO3 [6, 9,10].
Normal State Resistance of YBa2Cu2O7-δ Grain Boundaries – Measurements and Theory
Applied a Wheatstone bridge technique to measure the resistance
of thin film YBa2Cu2O7-δ grain boundaries. A thin film artificial grain
boundary was aligned with a Wheatstone bridge as shown on the
left so that the boundary unbalances the bridge (an AFM image of
part of a device is also shown below). This enabled measurements
of grain boundary resistances that were much smaller than the
interconnect resistances [5, 7, 8].
Developed the first model for tunnelling through YBa2Cu2O7-δ grain
boundaries that incorporated a realistic band structure as well as
band bending effects. Set up collaboration with the Cavendish
theory of condensed matter group to compute results for a 3D
band structure. This model was shown to be consistent with the
available experimental data [7, 12].
4. Publications (in reverse chronological order)
Papers:
[1] M. Ferri, F. Mancarella, A. Roncaglia, J. H. T. Ransley, J. Yan and A. Seshia “Fabrication of
DETF sensors in SOI technology with submicron air gaps using a maskless line narrowing
technique”, Proceedings of the 7th IEEE Conference on Sensors , Lecce, Italy (2008).
[2] J.H.T. Ransley, A. Aziz, C. Durkan and A.A. Seshia, “Silicon depletion layer actuators” Applied
Physics Letters 92, 184103 (2008). Selected for publication in the Virtual Journal of
Nanoscience and Nanotechnology, 17(21), (2008).
[3] J.H.T. Ransley, C. Durkan and A.A. Seshia, “A Depletion Layer Actuator”, Proceedings of
Transducers 2007, Lyons, France.
[4] J.H.T. Ransley, M. Watari, D. Sukumaran, R.A. McKendry, A.A. Seshia, “SU8 Bio-Chemical
Sensor Microarrays”, Microelectronic Engineering 83, 1621-1625 (2006).
[5] S. H. Mennema, J. H. T. Ransley, G. Burnell, J. L. MacManus-Driscoll, E. J. Tarte, and M. G.
Blamire, “Normal-State Properties of High-Angle Grain Boundaries in (Y, Ca)Ba2Cu3O7-δ”,
Physical Review B 71, 094509 (2005). Selected for publication in the Virtual Journal of
Applications of Superconductivity 8(7), (2005)
[6] J. H. T. Ransley, P. F. McBrien, G. Burnell, E. J. Tarte, J. E. Evetts, R. R. Schulz, C. W.
Schneider, A. Schmehl, B. Goetz, H. Bielefeldt, H. Hilgenkamp and J. Mannhart “Capacitance
Measurements on Grain Boundaries in Y1-xCaxBa2Cu2O7-δ ”, Physical Review B 70, 104502
(2004). Selected for publication in the Virtual Journal of Applications of Superconductivity 7(6),
(2004)
[7] J. H. T. Ransley, S. H. Mennema, K. G. Sandeman, G. Burnell, E. J. Tarte, M. G. Blamire,
J. E. Evetts, J. Kye and B. Oh, “Normal State Resistance of Grain Boundaries inYBa2Cu2O7-δ”,
Applied Physics Letters 84(20), 4089-4091 (2004). Selected for publication in the Virtual
Journal of Applications of Superconductivity 6(10), (2004)
[8] J. H. T. Ransley, S. H. Mennema, G. Burnell, U. Balasumbramaniam, E. J. Tarte,
M. G. Blamire, J. E. Evetts, J. Kye and B. Oh, “Y-Ba-Cu-O Grain Boundary Resistivity above
and below the Critical Temperature”, IEEE transactions on Applied Superconductivity 13(2),
2866-2889 (2003).
[9] E.J. Tarte, P. F. Mcbrien, J. H. T. Ransley, R. H. Hadfield, E. I. Inglessi, W. E. Booij, G.
Burnell and J. E. Evetts, “Capacitance as a probe of high angle grain boundary transport in
oxide superconductors”, IEEE transactions on Applied Superconductivty 11(1), 418-421
(2001).
[10] J. H. T. Ransley, P. F. McBrien, G. Burnell, E. J. Tarte, J. E. Evetts, R. R. Schulz, C. W.
Schneider, A. Schmehl, B. Goetz, H. Bielefeldt, H. Hilgenkamp and J. Mannhart “Capacitance
Measurements on Grain Boundaries in Y1-xCaxBa2Cu3O7-δ”, Proceedings of the International
Workshop on Critical Currents, Göttingen, Germany, 31-33 (2001).
Patents:
[11] J. H. T. Ransley, C. Durkan and A. Seshia, “Depleted Layer-Transducer”, Publication Number
WO2008001082 (27 June 2006).
Thesis:
[12] J. H. T. Ransley, “The properties of Grain Boundaries in YBa2Cu3O7−δ”, PhD Thesis,
University of Cambridge, 2004 (http://www.dspace.cam.ac.uk/handle/1810/34596).
Referees available on request