Events

Registration is required. A link to the event will be sent to those registered closer to the event date.

Register here: https://www.eventbrite.ca/e/resource-management-for-massive-connectivity-in-future-wireless-networks-tickets-111059596242

About this Event

Future wireless networks (beyond 5G/sixth-generation (6G) networks)
are envisioned to support 3D communication by integrating terrestrial
and aerial networks. The objective is to provide connectivity to a large
number of devices (known as massive connectivity), to support
substantial traffic demands, and expand coverage. However, effective
resource management in future wireless networks is a challenge because
of massive resource-constrained devices, diverse quality-of-service
(QoS) requirements, and a high density of heterogeneous devices. In this
seminar, I will present my recent research progress which is focused on
communication networking aspects of the Internet of Things (IoT), with
emphasis on algorithm design, network architecture development, and
system-level performance analysis. I will provide a brief discussion on
my three most significant contributions which focuses on the design of
novel algorithms and communication protocols for IoT networks, that have
both (i) enhanced network performance, in terms of spectrum efficiency,
coverage, and energy efficiency, and (ii) satisfied a wide range of IoT
devices’ requirements and constraints. I will then share long-term goal
of my research program which is to develop efficient and low complexity
resource management schemes to tackle the challenges of seamless
connectivity of heterogeneous devices anytime and anywhere. Finally, I
will present my short-term objectives in the next five years which are
to develop resource management schemes for massive connectivity in
future terrestrial networks, aerial networks, and self-sustainable
networks (SSNs) while considering different objectives and constraints,
including network scalability, reliability, latency, efficiency
(spectral usage and energy consumption), and complexity.

BIOGRAPHY

Waleed
Ejaz (S’12-M’14-SM’16) is an Assistant Professor in the Department of
Applied Science & Engineering at Thompson Rivers University,
Kamloops, BC, Canada. He is also the founding director of Next
Generation Wireless Networks (NEWNET) research laboratory. Previously,
he held academic and research positions at Ryerson University, Carleton
University, and Queen’s University in Canada. He received the B.Sc. and
M.Sc. degrees in Computer Engineering from the University of Engineering
and Technology, Taxila, Pakistan and the National University of
Sciences and Technology, Islamabad, Pakistan, and the Ph.D. degree in
Information and Communication Engineering from Sejong University,
Republic of Korea, in 2014. He has co-authored over 90 papers in
prestigious journals and conferences, and 3 books. His current research
interests include Internet of Things (IoT), energy harvesting, 5G and
beyond networks, and mobile edge computing. He is an Associate Editor of
the IEEE Communications Magazine, IEEE Canadian Journal of Electrical
and Computer Engineering, and the IEEE ACCESS. Dr. Ejaz completed
certificate courses on “Teaching and Learning in Higher Education” from
the Chang School at Ryerson University. He is a registered Professional
Engineer (P.Eng.) in the province of British Columbia, Canada. Dr. Ejaz
is a senior member of IEEE, member of ACM, and ACM distinguished
speaker.

#IEEEWIEOttawa

Date: Tuesday, July 21th, 2020

Time: 12:00 PM – 1:00 PM

Location: Online – WebEx

Registration/Event Information:
https://events.vtools.ieee.org/m/234954

Event Contact: Kexing Liu (kexing.liu@ieee.org)

Speaker: Dr. Jacques Carolan of University of Copenhagen, Danmark

Title of the talk: Quantum Photonics Processors to Accelerate Machine Learning

The generation and manipulation of quantum states of light has historically played a critical role in the development of quantum information science: from the first violation of Bell’s inequality to the more recent development of near-term quantum algorithms such as the variational quantum eigensolver. In this talk, I present a new frontier for photons at the intersection of quantum mechanics and machine learning. I will first provide a short introduction to the field of quantum photonics, then demonstrate how quantum photonic processors can accelerate both quantum and classical machine learning. Finally, I show how optimization techniques can enhance large-scale quantum control and provide a new path towards efficient verification of near-term quantum processors.

Abstract:

The challenges associated with high-speed signal integrity (SI) are becoming exponentially complex with the doubling of signal speeds every generation. In this presentation, high-speed server design is used an example to demonstrate the next generation SI challenges and potential opportunities to overcome these challenges. The presentation covers basics of SI, high-speed interconnects, analog and digital equalization and high-speed challenges beyond 32 Gbps. 

See more information at: https://www.ieeeottawa.ca/wp-content/uploads/2020/07/Bhyrav_Mutnury_announcement.pdf

Webinar: Role of the Smart Grid in Facilitating the Integration of Renewables

Speaker: Prof. Dr. Saifur Rahman, Director, Virginia Tech Advanced Research Institute, USA, IEEE Power & Energy Society (PES) President 2018-2019, IEEE PES Distinguished Lecturer

Date/Time: Tuesday, July 28, 2020, 6:30 pm – 7:30 p.m. EDT

Admission: Free, but registration is required: https://events.vtools.ieee.org/m/234594

For more details, please visit: https://www.ewh.ieee.org/soc/pes/ottawa

Abstract – With the focus on environmental sustainability and energy security, power system planners are looking at renewable energy as supplements and alternatives. But such generation sources have their own challenges – primarily intermittency.  It is expected that the smart grid – due to its inherent communication, sensing and control capabilities – will have the ability to manage the load, storage and generation assets (including renewables) in the power grid to enable a large-scale integration of distributed generation. In a smart grid, information about the state of the grid and its components can be exchanged quickly over long distances and complex networks. It will therefore be possible to have the integration of sustainable energy sources, such as wind, solar, off-shore electricity, etc. for smoother system operation. But in order for this to be possible, the electric utility will have to evolve, and change their ways of operation to become an intelligent provider of these services. This lecture introduces the operational characteristics of renewable energy sources, and various aspects of the smart grid – technology, standards and regulations. It also addresses the interplay among distributed generation, storage and conventional generation to provide an efficient operational strategy in the context of the smart grid.

Registration:

https://www.eventbrite.ca/e/techsploration-the-power-in-possibilities-tickets-113850086674

Event Contact:

Manar Helal (manarhelal@ieee.org)

Abstract

Considered a national best practice, Techsploration’s award-winning 4-phase program model provides young women in Grades 9 through 12 with opportunities to explore science, engineering, trades, and technology occupations, while creating awareness about the critical role of work in their lives. It also helps them understand the significance of high school math and science for their future careers. When we connect young women from diverse backgrounds with female role models and employers who embrace diverse and respectful workplace culture, we open doors to future career opportunities many young women may not consider otherwise. Techsploration’s network of industry partners/sponsors, alumnae, teachers, role models, and volunteers has enabled young women to reach their full potential. Together, we are changing lives through a simple concept: the power in possibilities.

Join Techsploration’s Manager of Communications and Strategic Partnerships, Emily Boucher, for information and insight on this award-winning program which has been delivering impactful programming for more than 22 years!

Bio

Emily Boucher is currently the Manager of Communications and Strategic Partnerships for Techsploration, an award-winning, Nova Scotia-based non-profit that encourages young women to explore careers in science, engineering, trades, and technology. Emily is a passionate advocate for Canada’s technology sector and driven to lead initiatives that support the advancement of women, in particular, within the country’s growing digital economy. Over the past year, Emily has helped lead Techsploration’s National Expansion pilot, an initiative expanding the organization’s best practice model to Ontario and eventually across the country – a first for Techsploration.

Previous senior-level roles with Digital Nova Scotia and the Canadian Advanced Technology Alliance (CATA) have also provided her with experience leading both provincial and national initiatives to support the growth of both Nova Scotia and Canada’s technology sectors. In 2013, Emily was one of 21 women from across the country chosen to participate in Tech Women Canada, a program that connects Canadian women in the technology sector to their peers in Silicon Valley and the impact/high growth culture of that region.

Emily holds a B.A. (Honours) in Political Science and English Literature from Carleton University and a diploma in Public Relations from Algonquin College. Currently, she volunteers as co-Chair of the Nova Scotia Chapter for Women in Communications and Technology (WCT).