This course is designed in collaboration with transport industry partners to equip you to meet the needs of the rail and road industries. There is an increased demand for advancements in electrical, electronic, control and communication systems for transport, with a particular focus on themes like higher efficiency and sustainability, safety and driving assistance, position and traffic control for smart transport planning.
Modern electrical, electronic, control and communication systems for intelligent transport require today engineers with a combination of skills and solutions from cross-disciplinary abilities spanning electrical, electronic, control and communications. In this context, the overall aim of this Conversion Masters is to provide you with an enriching learning experience, and to enhance your knowledge and skill-base in the area of modern road vehicle and rail transport systems design.
This conversion course is intended both for engineers in current practice and for fresh honours graduates to facilitate their professional development, mobility and employability.
This course aims to enhance your knowledge and skills in the area of intelligent and efficient transport systems design. You will develop advanced practical skills that will help you determine system requirements, select and deploy suitable design processes and use the latest specialist tool chains to test and/or prototype a device or algorithm. The programme will help you acquire the cross-disciplinary skills and abilities that today are vital to be able to implement effective solutions for modern electrical, electronic and communication systems applied to intelligent transport. The broad range of disciplines covered by the course will enable you to enter a career that requires a cross-disciplinary approach with a practical skillset.
The subject areas covered within the course offer you an excellent launch pad which will enable you to enter into this ever expanding, fast growing and dominant area within the electrical engineering sector, and particularly in the area of intelligent and efficient transport systems. Furthermore, the course will provide the foundations required to re-focus existing knowledge and enter the world of multi-disciplined jobs.
The course provides the foundations required to re-focus existing knowledge and enter the world of multi-disciplined jobs. Graduates can expect to find employment, for example, as Electrical systems design engineers; Control systems engineers, Transport systems engineers; Plant control engineers; Electronic systems design engineer; Communication systems design engineers; Sensor systems engineers; Computer systems engineer. Examples of typical industries of employment can be: Transport; Automobile; Aviation; Electrical systems; Electronic systems; Assembly line manufacturers; Robotics and home help; Toy; Communication systems; Logistics and distribution; Consumer industry; Life-style industry; Security and surveillance; Petro-chemical.
New York City boasts the country’s largest number of creative-sector jobs and attracts top design talent. Local industry events and collaborations with commercial and nonprofit partners deepen connections to the field. In the MFA Industrial Design program, students combine advanced making skills with critical inquiry to design for production at all scales, from low volume to high volume, employing methods ranging from desktop manufacturing to systems involving global supply chains. Students develop their knowledge and skills at the university’s state-of-the-art product prototyping and testing facilities.
The MFA Industrial Design curriculum balances competing interests such as economical production and sustainability, consumerism, social and environmental improvement, and global and local production, investigating ways to integrate and reconcile these forces as a whole. In their second semester, MFA students explore limited-run making in New York City, and in the third semester they can investigate large-scale global production through virtual collaborations or study abroad at sites including Parsons Paris. A specialized thesis project offers opportunities to develop designs that advance — or challenge — industrial design theory and practice.
Parsons’ Master of Fine Arts in Industrial Design program offers an innovative two-year, 60-credit full-time graduate curriculum that prepares students to negotiate the seemingly contradictory forces at play in the growing product design industry. Students explore the way goods can be produced in both localized contexts (a “making in place” approach, which relies on regionalized needs and constraints) and globalized contexts (employing design principles focusing on universal needs). Parsons’ School of Constructed Environments includes graduate students in Architecture, Interior Design, and Lighting Design, creating a unique learning community.
This program is part of Parsons' School of Constructed Environments (SCE). Learn about the SCE community and explore our SCE blog to see what students, faculty, and alumni are doing in NYC and around the world.
The faculty of design practitioners aims to develop a community of designers committed to improving industry, protecting the environment, and promoting the quality of life. The MFA Industrial Design program attracts motivated, reflective students with experience in product design but also accepts candidates from other design professions and disciplines such as engineering, fine art, management, and anthropology. An innovation-focused university with programs in the social sciences, business and management, media studies, and the performing arts, The New School offers complementary courses that enrich design practice.
Students graduate equipped with the ability to integrate the many considerations involved in product design and to lead as socially aware makers, strategists, and industry specialists. Graduates emerge prepared to design innovative products and lead the industries that produce them as well. Career paths include industrial design, product development, manufacturing, furniture design, humanitarian and service design, toy design, design management, and architectural building systems.