Launched in October 2020, the MIT and also Accenture Merging Effort for Sector and Modern technology is planned to demonstrate just how the merging of sectors and modern technologies is powering the following wave of adjustment and also technology. The five-year effort is created to progress three main columns: research study, education, and also fellowships. As component of the third pillar, Accenture has actually awarded five fellowships to MIT graduate students dealing with research study in market and also innovation convergence that are underrepresented, consisting of by race, ethnic culture as well as sex. The receivers of the inaugural Accenture Fellows program are working throughout self-controls including electronic devices, textiles, artificial intelligence, business economics, and also supply chain. Their study has the potential to progress development and also modern technology to affect sector merging and to broaden the convergence procedure to basically all industries– through creative problem-solving, the increased adoption of brand-new innovations, distinct cooperations, as well as believing imaginatively and boldly.
“Accenture has long concentrated on just how creative thinking as well as ingenuity can assist resolve a few of the world’s most intricate issues. When we intended to check out the merging of sector and technology, we looked to MIT to extend our historical partnership with education and learning, study, and also fellowships that delved much deeper into this subject,” claims Sanjeev Vohra, global lead of applied knowledge at Accenture. “The Accenture Fellows awards underscore our solid dedications to education and learning, innovation, research study as well as exploration, and producing chances that will assist accelerate the accomplishments of these future champs of modification.”
Research being carried out by the fellows covers an array of vital work, consisting of: creating robot-aided treatment to improve balance in damaged topics; leveraging the boosting availability of data in the job economy; using maker finding out to process in your area generated waste for use as alternative power in low-income towns; checking out functional obstacles that may arise from obstacles to extending credit and also sharing info amongst supply chain partners; as well as making and also applying electronic textile innovation to low-Earth orbit, triggering a possibility for convergence amongst the electronics, fabric, and room innovation industries.
“These others are prime examples of the extraordinary cross-disciplinary job occurring at the nexus of industry and also innovation,” states Anantha Chandrakasan, dean of the MIT School of Engineering as well as the Vannevar Bush Teacher of Electrical Engineering and Computer Science. “We are tremendously happy for Accenture’s commitment to our pupils, and also for their goal of supporting and progressing pupil innovation and also exploration with these fellowships.”
Trainee elections from each unit within the College of Design, as well as from the four various other MIT colleges as well as the MIT Schwartzman College of Computer, were welcomed as component of the application process. Five remarkable trainees were selected as the inaugural fellows of the initiative:
Jacqueline Baidoo is a PhD trainee in the Division of Products Science and Design, exploring plan related to products utilize. Especially, her study is concentrated on waste-to-energy (WTE) approaches that can be taken on at the local degree to treat as well as process in your area produced waste for use as alternative power. Her objective is to utilize equipment finding out to reduce the barrier to entrance of WTE methods in low-income districts via the development of a tool that informs metropolitan choices around waste monitoring and also the building and construction of WTE facilities. Baidoo made a BS in chemistry and also BA in physics from Xavier University of Louisiana and a BS in chemical as well as biomolecular design from Georgia Technology.
Juliana Cherston is PhD trainee in the Media Lab. Her work in the Responsive Environments Group is focused on bringing electronic textile technology to low-Earth orbit, triggering a possibility for merging among the electronic devices, textile, as well as space technology industries. Specifically, she is boosting big location room materials with active sensory capability, weaving vibration-sensitive piezoelectric fibers and charge-sensitive conductive threads right into these specialized materials. Cherston earned a BA in physics as well as computer science from Harvard University.
Olumurejiwa Fatunde is a PhD student studying in the Center for Transport and Logistics. Her research study analyzes operational difficulties that may occur from barriers to expanding credit rating and sharing information amongst supply chain partners in informal settings. With the proliferation of novel payment platforms, cryptocurrency use, and all-natural language processing, Fatunde proposes that there is a possibility to drive merging across economic services, telecoms, and various other customer-facing markets in emerging markets. Especially, she is examining how technologies might drip down to the tiniest, least-formal organizations, assisting them to develop value for consumers as well as to be a part of the global economic climate. Fatunde made a Bachelor’s Degree in biomedical engineering from Harvard College as well as an MS in global health and wellness policy from the London College of Economics in the U.K.
André Medeiros Sztutman is a PhD student in the Department of Economics. Leveraging the boosting availability of information in the gig economic climate, his job concentrates on the growth of devices for dealing with negative option in insurance markets. By developing devices that make better use info– specifically in circumstances where it is specifically required– he is contributing to the convergence of various sectors: job platforms, reporting firms, and the insurance policy organization. Medeiros Sztutman made a BS in economics from the Universidade de Sao Paulo, Brazil and also an MS in business economics from Pontificia Universidade Catolica do Rio de Janeiro in Brazil.
Kaymie Shiozawa ’19 is a master’s trainee in the Department of Mechanical Design, discovering how robot-aided treatment might potentially address the obstacle of improving balance in impaired subjects. Drawing on her experience designing human subject experiments, using machine learning and also mathematical simulations, as well as developing intricate mechanisms for robotics as well as clinical gadgets, Shiozawa intends to make a variable resistance cane and also a novel method called AdaptiveCane, which urges alone equilibrium by gradually lowering the level of assistance supplied as a user’s efficiency enhances. Shiozawa made an BS in mechanical design from MIT.