Course 2023-2024 a.y.

Students are first exposed to principles of psychology that lead to resistance to these technologies and then discuss data-driven strategies to improve their adoption. Then, students develop tools to critically evaluate current applications of algorithmic technologies in organizational settings, considering issues of efficiency, accuracy, firm performance, hiring and promotion decisions, equity, and the broader Future of Work.

The learning process is supported by guest lectures from organizations facing challenges caused by or solved by algorithmic technology, which will provide opportunities for students to apply the principles learned in class and propose solutions.

No background in either computer science or psychology is necessary.

The students should be able to identify principles of organizational behavior in novel technologies, critically evaluate current applications of algorithmic technologies in organizational settings, and discuss data-driven strategies to improve adoption of novel technologies.

- Teamwork

- Communication skills

- Presentation skills

- Intelligent question asking

- Critical thinking and analysis

In order to achieve individual learning objectives, the course will involve active participation from all of the students in a variety of modalities. By the end of the course, students should be able to identify principles of organizational behavior present in the roll-out of novel technologies, critically evaluate current applications of algorithmic technologies in organizational settings, discuss data-driven strategies to improve adoption of novel technologies, organize successful soft-skills such as effective teamwork in the generation of analyses, effective communication skills between team members as well as with other individuals in the classroom, successful presentation skills such as pacing and content curation.

• Face-to-face lectures
• Online lectures
• Guest speaker's talks (in class or in distance)
• Exercises (exercises, database, software etc.)
• Case studies /Incidents (traditional, online)
• Individual assignments
• Group assignments
• Interactive class activities on campus/online (role playing, business game, simulation, online forum, instant polls)

Guest speakers, either leading industry experts and/or academic experts, will give talks about specific course areas of technology or phenomena which will allow students to expand their understanding of phenomena as applied in real world contexts (depending on availablity and ability/interest of students). Exercises will complement this broadening of contextual knowledge by giving students opportunities to put into practice theory learned in class onto hypothetical situations. Case studies will help elaborate theoretical concepts and give students practice in analytical thinking and perspective taking. Individual assignments will ensure that each student can independently think critically about the concepts covered in class, whereas group assignments will ensure that students are able to collaborate and understand how to be effective when working in a team. Interactive class activities will allow this development to occur while under the supervision of the instructor and will help students develop both content area expertise and as well as soft-skills necessary for the workplace.

This information is purely indicative and may change at any time.

Non-attending students must consult with the professor to arrange a suitable plan of study.

Attending students can use course slides as their main reference for exam preparation.

Non-attending students may request a specified reading list to guide their research literature reviews from the instructor.