IEEE Toronto Section

IEEE

Archive for the ‘Magnetics’ Category

IEEE Toronto Centennial Workshop: Distributed Machine Learning, The Second Step

Monday, July 15th, 2019

Tuesday July 30th, 2019 at 2:30 p.m. Reza Dibaj, Chair of Magnetics Chapter in the IEEE Toronto Section, will be presenting “IEEE Toronto Centennial Workshop: Distributed Machine Learning, The Second Step”.

Day & Time: Tuesday July 30th, 2019
2:30 p.m. ‐ 3:30 p.m.

Speaker: Reza Dibaj
Chair of Magnetics Chapter, IEEE Toronto Section

Organizers: Magnetics Chapter, IEEE Toronto Centennial College Chapter, WIE IEEE Toronto

Location: Room B3-09
Centennial College, Progress Campus
941 Progress Ave., Toronto, Ontario, M1G 3T8

Contact: Reza Dibaj

Abstract: At the beginning of the workshop, we quickly recap what we did in the previous session and knowing more about the definition of good features in our datasets. To continue our journey that we have started in the previous workshop, we will dive deeper into ML by applying our Decision Tree algorithm on a classical iris dataset. We will thoroughly practice training and testing data, using a step-by-step hands-on. Finally, we will use visualization tools to show what is happening under the hood in a decision tree and how it works as one of the most interpretable algorithms in ML.

IEEE Toronto Centennial Workshop: Distributed Machine Learning, Basic Concepts

Monday, July 15th, 2019

Tuesday July 23rd, 2019 at 2:30 p.m. Reza Dibaj, Chair of Magnetics Chapter in the IEEE Toronto Section, will be presenting “IEEE Toronto Centennial Workshop: Distributed Machine Learning, Basic Concepts”.

Day & Time: Tuesday July 23rd, 2019
2:30 p.m. ‐ 3:30 p.m.

Speaker: Reza Dibaj
Chair of Magnetics Chapter, IEEE Toronto Section

Organizers: Magnetics Chapter, IEEE Toronto Centennial College Chapter, WIE IEEE Toronto

Location: Room B3-09
Centennial College, Progress Campus
941 Progress Ave., Toronto, Ontario, M1G 3T8

Contact: Reza Dibaj

Abstract: Machine Learning is an indispensable part of data science and there is no need to have a thorough programming background to benefit from it. Machine Learning (ML) and statistical techniques have provided a new era that enables us to convert the data to information, and transform the information into actionable knowledge. SciKit and TensorFlow are two states of the art libraries that can be used in Python and this seminar will open the gate to know their bases. The first seminar is about “Hello World!” Machine Learning program, using python language and SciKit learn library.

Rethink Cities – A FIDIC/EFCA White Paper on Sustainable Urban Development

Thursday, November 29th, 2018

Friday December 14th, 2018 at 1:00 p.m. Laleh Farhadi, MSc Urban and Regional Planning, will be presenting “Rethink Cities – A FIDIC/EFCA White Paper on Sustainable Urban Development”.

Day & Time: Friday December 14th, 2018
1:00 p.m. ‐ 2:00 p.m.

Speaker: Laleh Farhadi, MSc Urban and Regional Planning

Organizers: Magnetics Chapter, WIE IEEE Toronto

Location: Ryerson University, Victoria Building (VIC)
285 Victoria St., 7th Floor, Room 736 (conference room)
Toronto, Ontario M5B 1W1

Contact: Reza Dibaj

Abstract: Today, over half of the world’s population lives in cities covering 2- 3 % of the Earth’s land area, using 75 % of all energy and emitting 80% of all carbon dioxide. Infrastructure investments in many countries and cities are not at a desirable level or they are steered in the wrong direction while many cities are growing faster geographically than population-wise. Society has to rethink cities.

The FIDIC White Paper addresses the need of evolving resource efficiency in cities with increased focus on planning and making socially and economically attractive areas, well-functioning spatial structures and energy efficient systems.

To meet the increasingly complex challenges of cities, holistic and integrated approach is needed and rightly applied regarding emissions, climate, resilience, climate risks, flooding, biodiversity, energy and material use, improved quality of life and social responsibility.

Biography: Laleh Farhadi is an Urban Planner, internationally experienced in both private and public sectors on different types of plans and projects related to the city and its ongoing challenges.

During a project in Consulting Engineering Firm, while reviewing and providing feedback for a FIDIC White Paper called “Rethink Cities”, she faced the fact that the total built environment (not just the individual buildings) requires sustainable overall solutions that form synergies in solutions for society, buildings, infrastructure, and technical systems.

This presentation based on FIDIC/ EFCA White Paper is a step forward to this knowledge and responsibility sharing with the hope of professional cooperation among various effecting fields in the city.

Smart Connected Buildings Form the Foundation of Smart City: Today’s Possibility, Tomorrow’s Necessity

Monday, November 26th, 2018

Monday December 10th, 2018 at 1:00 p.m. Amir Shabani, Ph.D., P.Eng., Canada Industrial Research Chair (IRCC) in Smart Connected Buildings, will be presenting “Smart Connected Buildings Form the Foundation of Smart City: Today’s Possibility, Tomorrow’s Necessity”.

Day & Time: Monday December 10th, 2018
1:00 p.m. ‐ 2:00 p.m.

Speaker: Amir Shabani, Ph.D., P.Eng.
Canada Industrial Research Chair (IRCC) in Smart Connected Buildings

Organizers: Magnetics Chapter, WIE IEEE Toronto

Location: Ryerson University, Department of Computer Science, Room 288
George Vari Engineering and Computing Centre
245 Church Street Toronto, ON M5B 2K3

Contact: Reza Dibaj

Abstract: Have you ever been or worked in a space/classroom that the air was not fresh enough, too cold in the winter or too hot in the summer? Have you ever wondered why even a brand new LEED-certified building is not smart enough and does not let the occupants control their environment, in terms of temperature, lighting et cetera.

This presentation aims to provide some insights on the challenges the current industry of building automation is facing and the opportunities that the new advancement such as Internet of Things (IoT), Artificial Intelligence (AI), and Adaptive Machine Learning (AML) could bring to this industry to make buildings smarter and sociable. In the context of smart city, rather than buildings being primarily treated as loads, intelligent buildings play a significant role in saving energy and improving the comfort and productivity of the occupants; emphasizing the needs for buildings to be social: interact with occupants, share data with each other, learn from each other, and help each other.

Biography: Dr. Amir Shabani is the NSERC Industrial Research Chair (IRCC) in Smart Connected Buildings. He is the director of Intelligent Building Automation Systems (IBAS) lab at George Brown College, Toronto, where his research team is closely collaborating with industry leaders on deployment, assessment, and development of new technologies that make homes and buildings smarter and social.

IEEE Toronto Centennial Workshop: Distributed Machine Learning, The Future of Programming in The Present

Wednesday, November 14th, 2018

Saturday Dec 1, 2018 at 5:30 p.m. Reza Dibaj, Chair of Magnetics Chapter, IEEE Toronto Section, will be presenting an IEEE Toronto Centennial Workshop: “Distributed Machine Learning, The Future of Programming in The Present”.

Day & Time: Saturday December 1st, 2018
5:30 p.m. ‐ 6:30 p.m.

Speaker: Reza Dibaj
Chair of Magnetics Chapter, IEEE Toronto Section

Organizers: Magnetics Chapter, IEEE Toronto Centennial College Chapter, WIE IEEE Toronto

Location: Room A3-17
Centennial College, Progress Campus
941 Progress Ave., Toronto, Ontario, M1G 3T8

Contact: Reza Dibaj

Abstract: Machine Learning (ML) and statistical techniques have provided a new era that enables us to convert the data to information and transform the information into actionable knowledge. Moreover, distributed computing ecosystems provide the ability to break down the computation burdens among commodity hardware, thanks to cloud environments. Among all the attempts in this road, SciKit and TensorFlow are two states of the art libraries that can be used in Python and this seminar will open the gate to know their bases.

Introduction to Vehicle Safety, Simulation Tools for Autonomous Transportation and human-machine interface (HMI)

Friday, February 16th, 2018

Monday, February 26th at 11:00 a.m., come to the University of Ontario Institute of Technology (UOIT) to learn about vehicle safety and relevant restraint systems and more at the “Introduction to Vehicle Safety, Simulation Tools for Autonomous Transportation and human-machine interface (HMI)” seminar.

Day & Time: Monday, February 26, 2018
11:00 a.m. ‐ 12:30 p.m.: UB2080
12:30 p.m. ‐ 3:00 p.m.: SIRC 2020A

Speakers:
Dr. Stefan Dominico
Professor, Engineering mechanics and simulations, Frankfurt University of Applied Sciences, Frankfurt, Germany

Mr. Mohsen Tayefeh, M. Eng.
Regional Sales Manager, SimuTech Group

Mr. Roman Duplak P.Eng., M.Eng.
Business Development Manager, SimuTech Group

Dr. Moustafa El-Gindy, PEng
Associate Professor, Department of Mechanical Automotive and Manufacturing Engineering, University of Ontario Institute of Technology

Mr. Walter Hearn
Area Director, ANSYS, Inc.

Location: University of Ontario Institute of Technology (UOIT)
2000 Simcoe St N
Oshawa, ON L1H 7K4

Contact: Dr. Ahmad Barari, PEng

Register: http://go.simutechgroup.com/autonomous-systems-uoit

Organizer: IEEE Toronto Women in Engineering, IEEE Toronto Instrumentation-Measurement/Robotics-Automation, IEEE Toronto Magnetics

Abstract: Reducing the number of people killed in road accidents is an important and challenging task. Beside other aspects improving the vehicle safety helps to achieve this goal. A lot of effort is being made by car manufacturers all over the world to improve the so-called safety performance of newly developed vehicles.

This workshop will give a short introduction to vehicle safety and relevant restraint systems with a focus on the deployment of the restraint systems (“airbag sensing”) used to improve the protection of people (e.g. vehicle occupants) involved in a vehicle accident. Also, special focus will be on broad capabilities for simulating autonomous vehicles and advanced driver assistance systems — everything from high-fidelity, physics-based sensor modeling to ISO26262 and AUTOSAR compliant embedded software and human-machine interface development tools.

The following topics will be covered:

Introduction to Vehicle Safety

Engineering Simulation for Safety
– Driving scenarios
– Virtual road test autonomous vehicles

Restraint Systems and Airbag Sensing
– Restraint Systems
– Introduction to Airbag Sensing
– Airbag Sensing (Calibration) Development
– The future of Airbag Sensing
– Lessons Learned (for real live)

Vehicle Dynamics and Crash Simulation Research

Future Trends
– The race to develop autonomous vehicles (AV)
– Advanced driver assistance systems (ADAS)
– Autonomous driving technology — involving radar, lidar, V2X communication, sensor fusion and deep learning
– Safe automated driving

Biography:
Dr. Stefan Dominico
Dr. Dominico has extensive working experience in German auto-industries including vehicle safety development for Adam Opel AG, and simulation at an engineering supplier (IHF – Ingenieurbüro Huß & Feickert), and several years research experience on nonlinear finite element simulations at the Universität Kassel.

Mr. Mohsen Tayefeh, M. Eng.
Mr. Tayefeh has been consultant to various industries in implementation of advanced technologies through partnership strategies for many years. He is an expert in computer aided engineering, finite element analysis and simulation. He also has extensive experience to design and manufacturing in automotive sector.

Mr. Roman Duplak P.Eng., M.Eng.
As a trusted advisor Roman helps companies to implement high technologies. Prior to this he worked as a Business Segment Director for the largest Bus Manufacturer in North America (i.e. New Flyer Industries) and as a Program Manager for Boeing. Moreover, his technical background consisted of working as a Chief Engineer in electromechanical actuation technologies, which brings lots of added value to this seminar.

Dr. Moustafa El-Gindy, PEng
Dr. El-Gindy is a leading researcher on vehicle safety and crash worthiness analysis. His research interests includes articulated heavy vehicles, bus testing and simulation, crash testing and simulations, high-velocity impact and ballistics simulation, self-steering axles simulation, Tire mechanics, and virtual human modelling.

Mr. Walter Hearn
Mr. Hearn has been in leadership roles with ANSYS for more than 10 years. Currently he is directing multiple direct and indirect teams across the Central U.S. and Canada. His successful strategies in supervising partnerships with companies will bring significant added value and we will learn many practical success stories from him during this seminar.

Hybrid Biomedical Optics Imaging and Instrumentation

Tuesday, February 13th, 2018

Friday, February 16th at 12:15 p.m., Nima Tabatabaei, Assistant Professor in the Department of Mechanical Engineering and Director of Hybrid Biomedical Optics Laboratory at York University, will be presenting “Hybrid Biomedical Optics Imaging and Instrumentation”.

Day & Time: Friday, February 16, 2018
12:15 p.m. ‐ 1:15 p.m.

Speaker: Nima Tabatabaei
Assistant Professor, Department of Mechanical Engineering
Director, Hybrid Biomedical Optics Laboratory
York University, Canada

Location: Room: ENG 210, George Vari Centre for Computing and Engineering
245 Church Street
Toronto, Ontario M5B 2K3

Contact: Saba Sedghizade, Maryam Davoudpour

Organizer: WIE IEEE Toronto, IEEE Ryerson Student Chapter, Instrumentation-Measurement/Robotics-Automation, Magnetics, and Computer Science Department of Ryerson University

Abstract: The focus of professor Tabatabaei’s research is on the design and instrumentation of thermal and optical imaging technologies and devices with applications in medical diagnosis and screening. Optics-based medical devices are of particular interest to him due to their intrinsic ability of revealing malignancies in early stages. The early diagnosis of diseases improves the effectiveness of treatments, promotes prevention rather than medical intervention, and is probably the only approach for us to win the war on cancer. However, one of the major challenges in optical imaging of endogenous tissue contrast is the poor specificity due to background signals from healthy tissues. Professor Tabatabaei’s research vision is to overcome this shortcoming by separating excitation and detection channels using Hybrid methods. In this scenario, crosstalk between the channels, selectively, takes place by energy conversion at malignant sites that are sensitive to the excitation thus minimizing (if not eliminating) the signals originating form background health tissues.

Biography: Nima Tabatabaei is an assistant professor in the Department of Mechanical Engineering and the director of Hybrid Biomedical Optics laboratory (http://www.HBOLab.ca) at the York University (Canada). He received his B.Sc. and M.Sc. in Materials Science and Engineering and Ph.D. in Mechanical Engineering (University of Toronto; 2012) before carrying out research at the Harvard Medical School and Wellman Center for Photomedicine as postdoctoral fellow. His research interests are design and development of hybrid biomedical optics imaging technologies for applications in early disease diagnosis and screening.

High Throughput CMOS Sensors and Actuators: An Emerging Technology for Automation of Biological Laboratories

Saturday, January 27th, 2018

Friday, February 2nd at 12:15 p.m., Dr. Ebrahim Ghafar-Zadeh (PhD, P.Eng), Director of Biologically Inspired Sensors and Actuators Laboratory, will be presenting “High Throughput CMOS Sensors and Actuators: An Emerging Technology for Automation of Biological Laboratories”.

Day & Time: Friday, February 2, 2018
12:15 p.m. ‐ 1:15 p.m.

Speaker: Dr. Ebrahim Ghafar-Zadeh
Biologically Inspired Sebsors and Actuators ( BioSA)
Dept. of Electrical Engineering and Computer Science
Lassonde School of Engineering
York University

Location: Room: ENG 288, George Vari Centre for Computing and Engineering
245 Church Street
Toronto, Ontario M5B 2K3

Contact: Maryam Davoudpour

Organizer: WIE IEEE Toronto, IEEE Ryerson Student Chapter, Instrumentation-Measurement/Robotics-Automation, Magnetics, and Computer Science Department of Ryerson University

Abstract: Recent advances of Complementary Metal Oxide Semiconductor (CMOS) Lab-on-Chip (LoC) technologies have greatly attracted the attentions for a variety of life science applications including DNA sequencing, drug discovery and automation of biological laboratories. A CMOS based LoC consists of a microfluidic device for directing the biological/chemical samples towards sensors (e.g. magnetic, optical or capacitive sensors) or actuators (e.g. magnetic or electrical actuators). An array of sensors or actuators can be realized on the top of CMOS integrated circuits (IC) for accurately measurement of chemical and/or biological signals. High throughput microfluidic/CMOS technology for cellular and molecular analysis is in a very early stage of development and there are several critical challenges that must be investigated and resolved. In this talk, professor Ghafar-Zadeh will discuss new perspectives and challenges for the design and implementation of hybrid microfluidic CMOS sensors and actuators. Also he will demonstrate and discuss his recent research achievements in this emerging field of research.

Biography: Ebrahim Ghafar-Zadeh (PhD, P.Eng) received his BSc ( KNT University, Tehran Iran), MSc (University of Tehran, Iran) and PhD ( Ecole Polytechnique de Montreal, Canada) degrees in Electrical Engineering in 1992, 1994 and 2008 respectively. In recognition of his innovative research in the topic of hybrid microfluidic/microelectronic systems, Dr. Ghafar-Zadeh received several postdoctoral fellowship awards including NSERC PDF and FRQNT PDF and he perused two postdoctoral fellows in the Dept. of Electrical and Computer Engineering, McGill University; and the Dept. of Bio-engineering, University of California, Berkeley. Dr. Ghafar-Zadeh has published more than 100 journal and conference papers and a book titled CMOS Capacitive Sensors for Lab-on-Chip applications. Since 2013, he has been an assistant Professor, in the Dept. of Electrical Engineering and Computer Science, York University, Toronto, Canada. Dr. Ghafar-Zadeh is the director of Biologically Inspired Sensors and Actuators Laboratory.

Hatching A Tech Startup

Saturday, November 18th, 2017

Tech startups have special challenges. Founders need to keep an eye on technology disruption, they have to find, recruit and keep the best talent, and they have to stay ahead of their competition. In the early stages there are no funds and never enough resources or time. In spite of this tech startup founders find a way to stand up their first product and land their first customers.

Join us for an afternoon with tech startup founders Melinda Jacobs, Cofounder, Lucent Sky, Maria Karam, Founder, Tactile Audio Displays Inc and the Inventor’s Nest, and Eddy Song Fonder of Inlighten Co as they share their own stories of the early stages of their businesses.

Come and hear how they do it and how they turn their ideas into products customers want.

Day & Time: Monday November 27th, 2017
3:30 p.m. – 6:00 p.m.

Speakers: Melinda Jacobs, Cofounder, Lucent Sky
Dr. Maria Karam, Founder, Tactile Audio Displays Inc & Inventor’s Nest
Eddy Song, Founder, Inlighten Co.

Location: Room: ENG 288, George Vari Centre for Computing and Engineering
245 Church Street
Toronto, Ontario M5B 2K3

RVSP: https://www.meetup.com/Get-Your-Bot-On-Robotics-Hackathon/events/245069438/

Contact: Dr. Maryam Davoudpour

Organizer: Get Your Bot On!, WIE IEEE Toronto, Instrumentation-Measurement/Robotics-Automation, Magnetics, and Computer Science Department of Ryerson University.

Agenda: 3:30 p.m. – Doors Open and Networking
4:00 p.m. – Welcome and Speakers
4:50 p.m. – Panel and Q&A
5:30 p.m. – Closing Remarks
6:00 p.m. – Close

Biography: Melinda Jacobs is cofounder of Lucent Sky, an application security vendor based in San Francisco and Taipei. Originally from Fredericton, Melinda studied as a Loran Scholar at the University of Toronto and currently serves on the Board of Directors of the University of Toronto Alumni Association (UTAA). Last year Melinda presented a keynote at the Lean Startup conference in San Francisco and is a frequent presenter on social entrepreneurship, security and risk. She was recently named a Senior Fellow of the Canadian International Council and now resides in Toronto.

Dr. Karam is the inventor and President of Tactile Audio Displays inc., and a Senior visiting research fellow at Kings College London UK. Dr. Karam’s specializes in the research and development of tactile communication systems and multi sensory technology integration in luxury autonomous vehicles, accessibility, and immersive entertainment environments. Maria is also the founder of the Inventors Nest, a new innovation and collaboration hub for artists, scientists, and techies. (please shorten or select the parts you think are relevant). I have also been a member of the IEEE since 2005.

Eddy Song is the founder of Inlighten Co. Inlighten makes fashionable clothing from fibre optic textiles. Their first products are popular with the EDM community.

Overview of Blockchain Technology

Thursday, November 9th, 2017

Omid Sadeghi, serial entrepreneur and technology advisor, will be presenting “Overview of Blockchain Technology”.

Day & Time: Monday November 13th, 2017
4:00 p.m. – 5:00 p.m.

Speaker: Omid Sadeghi
Director of BlockchainHub at York University

Location: Room: ENG 288, George Vari Centre for Computing and Engineering
245 Church Street
Toronto, Ontario M5B 2K3

Contact: Dr. Maryam Davoudpour

Organizer: WIE IEEE Toronto, Instrumentation-Measurement/Robotics-Automation, Magnetics, and Computer Science Department of Ryerson University.

Abstract: Blockchain protocol and technology are said by many to be among the greatest accomplishments of human intellect since the Internet. Blockchain is the software technology underlying what is commonly known as Bitcoin, however, the technology is not exclusive to Bitcoin. Swarms of innovators are working feverishly to design and deploy new business platforms that incorporate blockchain technology.

In this session, we learn about the concepts of cryptocurrency and blockchain, what are the potential for this technology and when a blockchain solution would be applicable to an enterprise.

Biography: Omid Sadeghi is a serial entrepreneur and technology advisor with domain expertise in commercialization and developing customer-centric products. Omid holds an undergraduate degree in Design Engineering and an MBA degree from Schulich School of business (Winner of more than $40,000 student awards).

He is the director of BlockchainHub at York University to connect Research, education, and commercialization in Blockchain space. BlockchainHub currently run numerous educational programs and run various projects including setting up a state of the art Blockchain-based certification system for York University.

Omid is active in building and supporting technology and engineering communities, especially in Toronto. He is on the advisory board of different blockchain initiatives and a board member of Professional Engineers of Ontario-ETC.