Project Ashray: Planning a Time-Constrained Project

In response to the uncontrollable second wave of COVID-19 in the south Indian state of Telangana in April 2021, a few like-minded social activists in the capital city of Hyderabad came together to establish a 100-bed medical care center to treat COVID-19 patients. The project was named Ashray. Dr. Chinnababu Sunkavalli (popularly known as Chinna) was the project manager of Project Ashray. In addition to the inherent inadequacy of hospital beds to accommodate the growing number of COVID- 19 patients till March 2021, the city faced a sudden spike of infections in April that worsened the situation. Consequently, the occupancy in government and private hospitals in Hyderabad increased by 485% and 311%, respectively, from March to April. According to a prediction model, Chinna knew that hospital beds would be exhausted in several parts of the city in the next few days. The Project Ashray team was concerned about the situation. The team met on April 26, 2021, to schedule the project to establish the medical care center within the next 10 days. The case is suitable for teaching students how to approach the scheduling problem of a time- constrained project systematically. It helps as a pedagogical aid in teaching management concepts such as project visualization, estimating project duration, float, and project laddering or activity splitting, and tools such as network diagrams, critical path method, and crashing. The case exposes students to a real-time problem-solving approach under uncertainty and crises and the critical role of NGOs in supporting the governments. Alongside the Project Management and Operations Management courses, other courses like Managerial decision-making in nonprofit organizations, Health care delivery, and healthcare operations could also find support from this case.

Learning Objectives:

To learn: Time-constrained projects and associated scheduling problems Project visualization using network diagrams Activity sequencing and converting sequential activities to parallel activities Critical path method (early start, early finish, late start, late finish, forward pass, backward pass, and float) to estimate a project's overall duration Project laddering to reduce the project duration wherever possible Project crashing using linear programming