Subrata Chakraborty and Tiny Philip
Unprecedented changes sweeping the world during the last few years have given rise to the need for the development and adoption of contingency strategies. This requires firms to…
Abstract
Unprecedented changes sweeping the world during the last few years have given rise to the need for the development and adoption of contingency strategies. This requires firms to have strategic flexibility in every aspect of their operation. Vendor development strategies constitute an important component in achieving this flexibility. Attempts to draw up an explicit conceptual link between generic business unit strategies and generic vendor development strategies. Proposes a vendor structure framework with three dimensions representing vendor structure scope, vendor structure relationship and vendor structure focus. Uses the framework to develop certain generic vendor development strategies. Considers the four generic strategies suggested by Porter, namely industry‐wide cost leadership strategy, industry‐wide differentiation strategy, segment cost leadership strategy and segment differentiation strategy and, for each one of these, proposes appropriate vendor development strategies.
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Rabin K. Jana, Dinesh K. Sharma and Subrata Kumar Mitra
The purpose of this paper is to offer improvement in routing and collection load decisions for a green logistics system that delivers lunch boxes.
Abstract
Purpose
The purpose of this paper is to offer improvement in routing and collection load decisions for a green logistics system that delivers lunch boxes.
Design/methodology/approach
A mathematical model is introduced into the literature for the 130 years old logistics systems whose delivery accuracy is better than the Six Sigma standard without using sophisticated tools. A simulated annealing (SA) approach is then used to find the routing and collection load decisions for the lunch box career.
Findings
The findings establish that we can improve the world-class lunch box delivery (LBD) system. The suggested improvement in terms of reduction in distance travel is nearly 6%. This could be a huge relief for thousands of lunch box careers. The uniformity in collection load decisions suggested by the proposed approach can be more effective for the elderly lunch box carriers.
Research limitations/implications
The research provides a mathematical framework to study an important logistics system that is running with a supreme level of service accuracy. Collecting primary data was challenging as there is no scope for recording and maintaining data in the present logistics system. The replicability of the system for some other city in the world is a challenging question to answer.
Practical implications
Better routing and collection load decisions can help many lunch box careers save time and bring homogeneity in workload into the system.
Social implications
An efficient routing decision can help provide smoother traffic movements, and uniformity in collection load can help avoid unwanted injuries to about 5,000 lunch box careers.
Originality/value
The originality of this paper lies in the proposed mathematical model and finding the routing and collection load decisions using a nature-inspired probabilistic search technique. The LBD system of Mumbai was never studied mathematically. The study is the first of its kind.