Your search keyword '"Hess AT"' showing total 2,268 results

1. Design of Enhancement Mode β-Ga₂O₃ Vertical Current Aperture MOSFETs With a Trench Gate

Author

Xiaoqing Chen, Feng Li, and Herbert Hess

Subjects

Beta-phase gallium oxide (β-Ga₂O₃), enhancement-mode, trench gate, vertical power MOSFET, current aperture, specific on-resistance, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In this article, enhancement-mode (E-mode) operation is achieved by employing a trench gate on the $\beta $ -Ga2O3 current aperture vertical MOSFETs via Sentaurus TCAD simulation. The performance of the trench gate $\beta $ -Ga2O3 MOSFETs was investigated with different structure parameters, such as trench gate depth, channel doping concentration, and drift layer doping concentration and thickness. The transistor with a trench gate recess (Gr) of 130 nm obtained a high on/off current ratio of $10^{8}$ , an on-current density of 65 A/cm2, a low specific on-resistance ( $\text{R}_{\mathrm {on,sp}}$ ) of 42.5 $\text{m}\Omega \cdot $ cm2, and a breakdown voltage (BV) of 488 V for an E-mode operation. With the thickness of the drift layer increasing to $9.2 \mu \text{m}$ , BV is improved to 721 V, $\text{R}_{\mathrm {on,sp}}$ keeps a low value of 43.5 $\text{m}\Omega \cdot $ cm2 due to the trench gate structure, and the transfer characteristic maintains the same. The thermal characteristics of the proposed MOSFET were studied and the device stability with high temperature was analyzed. The transistor with Gr = 130 nm can keep working in E-mode operation at T = 500 K. The performance of the transistor exhibits its great potential as a high-voltage switch device for power electronic applications.

Published

2024

2. Monitoring Product Chip Health with In-die Quality Monitors

Author

Brozek, Tomasz, primary, Piadena, Alberto, additional, Quarantelli, Michele, additional, Weiland, Larg, additional, Hess, Christopher, additional, Saxena, Sharad, additional, Yu, Yuan, additional, Vallishayee, Rakesh, additional, and Strojwas, Andrzej, additional

Published

2024

3. LidarCLIP or: How I Learned to Talk to Point Clouds

Author

Hess, Georg, primary, Tonderski, Adam, additional, Petersson, Christoffer, additional, Åström, Kalle, additional, and Svensson, Lennart, additional

Published

2024

4. Approximate Message Passing With a Colored Aliasing Model for Variable Density Fourier Sampled Images

Author

Charles Millard, Aaron T. Hess, Boris Mailhe, and Jared Tanner

Subjects

Approximate message passing, compressed sensing, magnetic resonance imaging (MRI), Stein's unbiased risk estimate, variable density sampling, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The Approximate Message Passing (AMP) algorithm efficiently reconstructs signals which have been sampled with large i.i.d. sub-Gaussian sensing matrices. Central to AMP is its “state evolution,” which guarantees that the difference between the current estimate and ground truth (the “aliasing”) at every iteration obeys a Gaussian distribution that can be fully characterized by a scalar. However, when Fourier coefficients of a signal with non-uniform spectral density are sampled, such as in Magnetic Resonance Imaging (MRI), the aliasing is intrinsically colored, AMP's scalar state evolution is no longer accurate and the algorithm encounters convergence problems. In response, we propose the Variable Density Approximate Message Passing (VDAMP) algorithm, which uses the wavelet domain to model the colored aliasing. We present empirical evidence that VDAMP obeys a “colored state evolution,” where the aliasing obeys a Gaussian distribution that can be fully characterized with one scalar per wavelet subband. A benefit of state evolution is that Stein's Unbiased Risk Estimate (SURE) can be effectively implemented, yielding an algorithm with subband-dependent thresholding that has no free parameters. We empirically evaluate the effectiveness of VDAMP on three variations of Fast Iterative Shrinkage-Thresholding (FISTA) and find that it converges in around 10 times fewer iterations on average than the next-fastest method, and to a comparable mean-squared-error.

Published

2020

5. Quantum Materials and Nanoplasmonics for Quantum Nanophotoncis at Ambient Temperatures

Author

Hess, Ortwin, primary

Published

2023

6. What do Biomedical Engineering Faculty Talk About When They Talk About Ethics?

Author

Fila, Nicholas D., primary, Hess, Justin L., additional, and Brightman, Andrew O., additional

Published

2023

7. Distinguishing Between Ethical and Normative Behaviors in Engineering: A Delphi Study

Author

Lin, Athena, primary and Hess, Justin L., additional

Published

2023

8. WIP: Exploring Faculty Members' Conceptualizations of Diversity, Equity, and Inclusion in Engineering Education

Author

Anakok, Isil, primary, Hess, Justin, additional, Panuganti, Sowmya, additional, and Katz, Andrew, additional

Published

2023

9. Co-Creating a Model of Empathy in Engineering Design

Author

Sanders, Elizabeth A, primary, Hess, Justin L, additional, Fila, Nicholas D, additional, Godwin, Allison, additional, and Schimpf, Corey, additional

Published

2023

10. App-Guided ICAROS Pro Training via SteamVR Tracking 2.0 and Zephyr BioHarness 3.0

Author

Meiszl, Katharina, primary, Potthast, Tobias, additional, Schulten, Tessa, additional, Silberbach, Marc, additional, Wiswede, Daniel, additional, Abbassi, Pegah, additional, Hake, Laurin, additional, Hussein, Vana, additional, de Canaviri, Lara Kuhlmann, additional, Mirraziroudsari, Seyedeh Delaram, additional, Ratert, Fabian, additional, Warnecke, Yannik, additional, Schiprowski, Witold, additional, Heß, Daniel, additional, Brüngel, Raphael, additional, and Friedrich, Christoph M., additional

Published

2023

11. Investigating Social Aspects in Software Development Teams — A Research Preview

Author

Hess, Anne, primary, Kohl, Martin, additional, Scherr, Simon André, additional, Storck, Sven, additional, and Hammer, Fabienne, additional

Published

2023

12. A Wearable System for Continuous Monitoring and Assessment of Speech, Gait, and Cognitive Decline for Early Diagnosis of ADRD

Author

Dieffenderfer, James, primary, Brewer, Alec, additional, Noonan, Maxwell A., additional, Smith, Madeline, additional, Eichenlaub, Emily, additional, Haley, Katarina L., additional, Jacks, Adam, additional, Lobaton, Edgar, additional, Neupert, Shevaun D., additional, Hess, Thomas M., additional, Franz, Jason R., additional, Ghosh, Sujit K., additional, Misra, Veena, additional, and Bozkurt, Alper, additional

Published

2023

13. Nanoplasmonics as Enabler of Room-Temperature Quantum Nanophotonic Networks

Author

Hess, Ortwin, primary

Published

2023

14. Greenhouse Monitoring with Biocompatible Humidity Sensor for Smart Farming

Author

Schlagmann, Moritz, primary, Stoenner, Joseph, additional, Selbmann, Franz, additional, Hess, Stefan, additional, and Otto, Thomas, additional

Published

2023

15. In-Product BTI Aging Sensor for Reliability Screening and Early Detection of Material at Risk

Author

Brożek, Tomasz, primary, Piadena, Alberto, additional, Weiland, Larg, additional, Quarantelli, Michele, additional, Coccoli, Alberto, additional, Saxena, Sharad, additional, Hess, Christopher, additional, and Strójwąs, Andrzej, additional

Published

2023

16. Masked Autoencoder for Self-Supervised Pre-training on Lidar Point Clouds

Author

Hess, Georg, primary, Jaxing, Johan, additional, Svensson, Elias, additional, Hagerman, David, additional, Petersson, Christoffer, additional, and Svensson, Lennart, additional

Published

2023

17. In-Product BTI Aging Sensor for Reliability Screening and Early Detection of Material at Risk

Author

Tomasz Brożek, Alberto Piadena, Larg Weiland, Michele Quarantelli, Alberto Coccoli, Sharad Saxena, Christopher Hess, and Andrzej Strójwąs

Published

2023

18. An Intuitive and Efficient Framework for Programming Robotic Systems

Author

Christian Bergner, Ronald Schmidt-Vollus, Peter Hess, and René Zuercher

Published

2022

19. An approximate message passing algorithm for rapid parameter-free compressed sensing MRI

Author

Charles Millard, Boris Mailhe, Jared Tanner, and Aaron T. Hess

Subjects

Signal Processing (eess.SP), FOS: Computer and information sciences, Computer science, Computer Science - Information Theory, Information Theory (cs.IT), Message passing, Approximation algorithm, 020206 networking & telecommunications, Numerical Analysis (math.NA), G.1.3, 02 engineering and technology, Iterative reconstruction, Image (mathematics), Matrix (mathematics), Compressed sensing, FOS: Electrical engineering, electronic engineering, information engineering, FOS: Mathematics, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Mathematics - Numerical Analysis, Electrical Engineering and Systems Science - Signal Processing, Algorithm, Fourier series, Free parameter

Abstract

For certain sensing matrices, the Approximate Message Passing (AMP) algorithm efficiently reconstructs undersampled signals. However, in Magnetic Resonance Imaging (MRI), where Fourier coefficients of a natural image are sampled with variable density, AMP encounters convergence problems. In response we present an algorithm based on Orthogonal AMP constructed specifically for variable density partial Fourier sensing matrices. For the first time in this setting a state evolution has been observed. A practical advantage of state evolution is that Stein's Unbiased Risk Estimate (SURE) can be effectively implemented, yielding an algorithm with no free parameters. We empirically evaluate the effectiveness of the parameter-free algorithm on simulated data and find that it converges over 5x faster and to a lower mean-squared error solution than Fast Iterative Shrinkage-Thresholding (FISTA)., Comment: 5 pages, 5 figures, IEEE International Conference on Image Processing (ICIP) 2020

Published

2022

20. A PUMA Array Design for Space Applications

Author

Roger D. Hasse, Colton Martin, Adam Hess, Peter Moschetti, Aaron Rothlisberger, Thomas H. Hand, and Joseph Torres

Published

2022

21. Exploring Ethical Motivation in an Undergraduate Engineering Ethics Course

Author

Athena Lin and Justin L. Hess

Published

2022

22. Ethical Considerations in Biomedical Engineering: Qualitative Student Perspectives from a Large Mid-Western University

Author

Elizabeth A. Sanders, Justin L. Hess, Sharon Miller, and Steve Higbee

Published

2022

23. An Intuitive and Efficient Framework for Programming Robotic Systems

Author

Bergner, Christian, primary, Schmidt-Vollus, Ronald, additional, Hess, Peter, additional, and Zuercher, René, additional

Published

2022

24. Comparison between Finite Element Analysis and Winding Function Theory of a Field Regulated Reluctance Machine

Author

Peterson, Brian J., primary and Hess, Herbert L., additional

Published

2022

25. A PUMA Array Design for Space Applications

Author

Hasse, Roger D., primary, Martin, Colton, additional, Hess, Adam, additional, Moschetti, Peter, additional, Rothlisberger, Aaron, additional, Hand, Thomas H., additional, and Torres, Joseph, additional

Published

2022

26. Exploring Ethical Motivation in an Undergraduate Engineering Ethics Course

Author

Lin, Athena, primary and Hess, Justin L., additional

Published

2022

27. Ethical Considerations in Biomedical Engineering: Qualitative Student Perspectives from a Large Mid-Western University

Author

Sanders, Elizabeth A., primary, Hess, Justin L., additional, Miller, Sharon, additional, and Higbee, Steve, additional

Published

2022

28. Power Efficiency Autonomy for Long Duration AUV Operation

Author

Justin Chang, Mark Anderson, Sophia Merrifield, Andrew Nager, Robert Hess, Raymond Young, Sean Kitchen, and Eric Terrill

Published

2022

29. Wide-Band, Multi-Beam, High Isolation, Multi-Mode Radial Vivaldi Antenna for Direction Finding

Author

Thomas H. Hand, Joshua D. Gustafson, Braiden Olds, Madison Gast, Adam Hess, Sarah Hanson, Aaron Rothlisberger, Erik Lier, Mark Winebrand, William Shultz, Thomas Cencich, W. Neill Kefauver, Carlos Romero, Peter Moschetti, Joseph Torres, Eric Kelso, and Tristan Johns

Published

2022

30. Power Efficiency Autonomy for Long Duration AUV Operation

Author

Chang, Justin, primary, Anderson, Mark, additional, Merrifield, Sophia, additional, Nager, Andrew, additional, Hess, Robert, additional, Young, Raymond, additional, Kitchen, Sean, additional, and Terrill, Eric, additional

Published

2022

31. Wide-Band, Multi-Beam, High Isolation, Multi-Mode Radial Vivaldi Antenna for Direction Finding

Author

Hand, Thomas H., primary, Gustafson, Joshua D., additional, Olds, Braiden, additional, Gast, Madison, additional, Hess, Adam, additional, Hanson, Sarah, additional, Rothlisberger, Aaron, additional, Lier, Erik, additional, Winebrand, Mark, additional, Shultz, William, additional, Cencich, Thomas, additional, Neill Kefauver, W., additional, Romero, Carlos, additional, Moschetti, Peter, additional, Torres, Joseph, additional, Kelso, Eric, additional, and Johns, Tristan, additional

Published

2022

32. A CubeSat Power Supply Implementing a Zero Voltage Switching Resonant Buck Converter Design with Low Electronic & Radio Frequency Noise

Author

Christine L. Page, Herbert Hess, and Kerri Cahoy

Published

2022

33. Tracking in-die mechanical stress through silicon embedded sensors for advanced packaging applications

Author

Sharad Saxena, Christopher Hess, Michele Quarantelli, Alberto Piadena, Larg Weiland, Rakesh Vallishayee, Yuan Yu, Dennis Ciplickas, Tomasz Brozek, and Andrzej Strojwas

Published

2022

34. A CubeSat Power Supply Implementing a Zero Voltage Switching Resonant Buck Converter Design with Low Electronic & Radio Frequency Noise

Author

Page, Christine L., primary, Hess, Herbert, additional, and Cahoy, Kerri, additional

Published

2022

35. Tracking in-die mechanical stress through silicon embedded sensors for advanced packaging applications

Author

Saxena, Sharad, primary, Hess, Christopher, additional, Quarantelli, Michele, additional, Piadena, Alberto, additional, Weiland, Larg, additional, Vallishayee, Rakesh, additional, Yu, Yuan, additional, Ciplickas, Dennis, additional, Brozek, Tomasz, additional, and Strojwas, Andrzej, additional

Published

2022

36. DFI Filler Cells – New Embedded Type of Test Structures for Non-Contact Detection of Electrical Defects on Product Wafers

Author

Stephen Lam, Christopher Hess, Larg Weiland, Matthew Moe, Xumin William Shen, John Chen, Indranil De, Marcin Strojwas, and Tomasz Brozek

Published

2022

37. DFI Filler Cells – New Embedded Type of Test Structures for Non-Contact Detection of Electrical Defects on Product Wafers

Author

Lam, Stephen, primary, Hess, Christopher, additional, Weiland, Larg, additional, Moe, Matthew, additional, Shen, Xumin William, additional, Chen, John, additional, De, Indranil, additional, Strojwas, Marcin, additional, and Brozek, Tomasz, additional

Published

2022

38. Intersections between ethics and diversity, equity, and inclusion in engineering

Author

Justin L Hess, Brent K Jesiek, Andrew Whitehead, Andrew Katz, and Donna Riley

Published

2021

39. The Relationship Between Empathy and Civic-Mindedness in First-Year Engineering Students

Author

Athena Lin, Justin L. Hess, and Aristides P. Carrillo Fernandez

Published

2021

40. WIP: Intersections Between Diversity, Equity, and Inclusion (DEI) and Ethics in Engineering

Author

Justin L Hess, Andrew Whitehead, Brent K. Jesiek, Andrew Katz, and Donna Riley

Published

2021

41. Faculty Members' Conceptualizations of Ethics in the Biomedical Engineering Classroom

Author

Elizabeth A. Sanders, Justin L. Hess, Grant Fore, Mary F. Price, Brandon Sorge, Tom Hahn, and Martin Coleman

Published

2021

42. Broad-area semiconductor laser for ultrafast parallel random number generation

Author

Yongquan Zeng, Kyungduk Kim, Stefan Bittner, Stefano Guazzotti, Hui Cao, Qi Jie Wang, and Ortwin Hess

Subjects

Semiconductor, Materials science, business.industry, Random number generation, law, Optoelectronics, business, Laser, Ultrashort pulse, law.invention

Published

2021

43. Ultrafast parallel random number generation with a chip-scale semiconductor laser

Author

Qi Jie Wang, Yongquan Zeng, Stefano Guazzotti, Ortwin Hess, Kyungduk Kim, Hui Cao, and Stefan Bittner

Subjects

Physics, business.industry, Physics::Optics, Laser, Chip, law.invention, Semiconductor laser theory, Interference (communication), law, Optoelectronics, Terabit, business, Ultrashort pulse, Lasing threshold, Order of magnitude

Abstract

Spatiotemporal interference of numerous lasing modes in a specially designed cavity accelerates random bit generation in hundreds of spatial channels. The accumulative bit rate reaches 250 Terabit/s, two orders of magnitude higher than the state-of-the-art.

Published

2021

44. Advanced Data Analytics in Logistics Demand Forecasting

Author

Edvard Tijan, Svjetlana Hess, Adrijana Agatić, T. Poletan Jugovic, Koricic, M., Skala, K., Car, Z., Cicin-Sain M., Babic, S., Sruk, V., Skvorc, D., Ribaric, S., Jerbic, B., Gros, S., Vrdoljak, B., Mauher, M., Tijan, E., Katulic, T., Petrovic, J., and Grbac, T. G.

Subjects

Computer science, business.industry, logistics demand forecasting, Advanced Data Analytics, Big Data, Artificial Intelligence, Machine Learning, Perspective (graphical), Big data, Data analysis, Demand forecasting, business, Data science, Agile software development, Market conditions

Abstract

The logistics demand forecasting is increasingly influenced by digitalization processes in logistics business. Traditional approach to logistics demand forecasting based on human expertise and statistical assessment is still very present, but the use of Big Data, Artificial Intelligence and Machine Learning becomes more prominent. By using these technologies, logistics demand forecasting becomes not only more reliable but also more agile and self-adjusting, with better insight into changing market conditions in the real-time perspective. In this paper, the Authors research the evolution of Data Analytics in logistics demand forecasting. and provide an insight to the features of Big Data, Artificial Intelligence and Machine Learning used for Advanced Data Analytics in logistics demand forecasting.

Published

2021

45. On the Influence of Peak Current Distribution on the Lightning Incidence to Transmission Lines

Author

Halana Hess, Rafael Alipio, and Miguel Guimaraes

Published

2021

46. Welcome to the Fifth International Workshop on Learning from Other Disciplines for Requirements Engineering (D4RE‘21)

Author

Kim Lauenroth, Norbert Seyff, Oliver Karras, Anne Hess, and Marcus Trapp

Subjects

Requirements engineering, media_common.quotation_subject, Best practice, Engineering ethics, Sociology, Diversity (politics), media_common, Theme (narrative)

Abstract

The D4RE workshop brings together a diversity of people who are interested in discussing the question "What can requirements engineering learn from other disciplines?" The overall goal of the workshop is to collaborate with experts from non-SE disciplines in order to develop a body of best practices from these disciplines and identify possible synergies with RE. Moreover, we aim to raise awareness for this interesting topic in the RE community and foster future collaborations across the boundaries of requirements engineering and software engineering. In this third edition, we aim to further enrich our existing body of ideas and identify synergies between non-SE disciplines and RE, inspired by the special theme: "Learning from Fiction - What can RE learn from famous characters or people acting in movies / TV series?"

Published

2021

47. Trajectory Generation for Mobile Robots in a Dynamic Environment using Nonlinear Model Predictive Control

Author

Jonas Berlin, Anton Karlsson, Per-Lage Gotvall, Knut Åkesson, Georg Hess, Ze Zhang, and William Ljungbergh

Subjects

Model predictive control, Computer science, Control theory, Visibility graph, Path (graph theory), Trajectory, Robot, Mobile robot, Solver, Optimal control

Abstract

This paper presents an approach to collision-free, long-range trajectory generation for a mobile robot in an industrial environment with static and dynamic obstacles. For the long-range planning a visibility graph together with A* is used to find a collision-free path with respect to the static obstacles. This path is used as a reference path to the trajectory planning algorithm that in addition handles dynamic obstacles while complying with the robot dynamics and constraints. A Nonlinear Model Predictive Control (NMPC) solver generates a collision-free trajectory by staying close to the initial path but at the same time obeying all constraints. The NMPC problem is solved efficiently by leveraging the new numerical optimization method Proximal Averaged Newton for Optimal Control (PANOC). The algorithm was evaluated by simulation in various environments and successfully generated feasible trajectories spanning hundreds of meters in a tractable time frame.

Published

2021

48. Estimating Regions of Wireless Coexistence with Gaussian Process Surrogate Models

Author

D. Rezac, Noel C. Hess, and Jason B. Coder

Subjects

Computer science, business.industry, Real-time computing, Communications system, symbols.namesake, Surrogate model, Transmission (telecommunications), Sequential analysis, symbols, Wireless, Performance indicator, Focus (optics), business, Gaussian process

Abstract

Simultaneous coexistence of multiple wireless communications systems sharing the same spectrum is critical for the success of modern and future communications. We develop a technique for estimating regions of wireless coexistence (RWC) – the transmission configurations of each of the wireless systems which permit coexistence – based on measurements of key performance indicators (KPIs) of those systems. In this article we focus on two-way coexistence tests, which aim to determine the impact each of the communications systems have on each other. The new technique is based on a Gaussian process surrogate model of the unknown transmission-configuration-to-KPI functions. We introduce a sequential design of experiments based on this surrogate model which is designed to reduce the number of measurements necessary to reach a highly-accurate estimate of a RWC. On an illustrative example, this technique reduces the average number of required measurements by over 40% compared to a baseline experimental design. Similar results are achieved for a measurement-informed simulation based on a coexistence test between an Bluetooth Low Energy device and an IEEE 802.11n Wi-Fi devices.

Published

2021

49. OrderNet: Sorting High Dimensional Low Sample Data with Few-Shot Learning

Author

Samuel Hess and Gregory Ditzler

Subjects

Artificial neural network, business.industry, Active learning (machine learning), Computer science, Sorting, Sample (statistics), Machine learning, computer.software_genre, Class (biology), Ranking, Sample size determination, Task analysis, Artificial intelligence, business, computer

Abstract

Neural networks have shown remarkable classification performances in recent years, often outperforming humans in many tasks. Unfortunately, there are some tasks where conventional neural networks and their training methods have under-performed. One of these areas is learning from a small number of samples which have been partially addressed with the development of few-shot neural networks. Few-shot neural networks contrast traditional classification networks by learning classification tasks with datasets with only a few samples per class; however, these few-shot techniques are trained collectively with a large number of labeled samples. Hence, few-shot learning approaches only address the low sample per class learning problem whereas the task of learning strictly from a low sample size still goes mostly unresolved. In this contribution, we address the challenge of learning from high dimensional low sample data by revising the problem into a data ordering task. Specifically, we have designed OrderNet, a novel network design and training approach that can take a relatively small amount (less than 200 samples) of ordered high dimensional low sample data and organize many more unseen samples. To the best of our knowledge, OrderNet is the first neural network to address the high dimensional low sample data using techniques adopted from few-shot learning. We evaluate OrderNet against its ability to order images of analog clocks by time as well as images of profile pictures by age. Additionally, we demonstrate that OrderNet has superior performance over a conventional regression neural network in the low sample regime.

Published

2021

50. Next Generation Multitarget Trackers: Random Finite Set Methods vs Transformer-based Deep Learning

Author

Pinto, Juliano, primary, Hess, Georg, additional, Ljungbergh, William, additional, Xia, Yuxuan, additional, Svensson, Lennart, additional, and Wymeersch, Henk, additional

Published

2021