Credit Transfer, Articulation & The Future of Work: Towards a Federal Strategy

Some analysts foresee that the rise of automation—triggered by advances in artificial intelligence, robotics, and other novel technologies—will soon unsettle sizable sections of our labour market, prompting the need for mass upskilling and re-skilling. Continuous learning is perceived as the new norm within the future of work. Many believe that solutions to future surges in training demand will require a degree of dexterity not exhibited by traditional postsecondary education (PSE) organizations, and advocate for radical alternatives. However, we outline how basic reforms leading to a more robust articulation and credit transfer system could also improve our PSE system’s ability to handle augmented training demands. In turn, we explore how the Canadian federal government can facilitate these reforms by (a) providing additional incentives for domestic colleges and universities to engage in seamless transfer, and (b) supporting the production of knowledge to inform more strategic forms of pathway articulation.

Control strategies for seamless transfer between the grid-connected and islanded modes of a microgrid system

Design of control strategies for Distributed generation systems is very important to achieve smoother transition between the grid connected and islanding modes of operation. The transition between these two modes of operation should be seamless, without any severe transients during the changeover. In this paper, two different control strategies namely inverter output current control and indirect grid current control for the seamless transfer between the modes of operation has been explored for the suitability. The design and analysis of the cascaded control loops based on Proportional Integral (PI) controller has been dealt in detail for both inverter output current control and indirect grid current control strategy. Control parameters are designed using the control system toolbox in MATLAB. A 10kW grid connected microgrid system has been designed and simulated in MATLAB/Simulink and the results are presented under grid connected operation, islanding operation and the transition between the modes considering fault condition in the grid side. The simulation studies are carried out using both the control strategies and the results are presented to validate the design methodology.