Naresh Kumar Kaliraman scite author profile

Naresh Kumar Kaliraman

5Publications

13Citation Statements Received

71Citation Statements Given

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Affiliations

Mewar University, Banasthali University

Publications

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Two warehouse inventory model for deteriorating item with exponential demand rate and permissible delay in payment

Kaliraman

Raj

Chandra

et al. 2017

YUGOSLAV J OPERATION

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A two warehouse inventory model for deteriorating items is considered with exponential demand rate and permissible delay in payment. Shortage is not allowed and deterioration rate is constant. In the model, one warehouse is rented and the other is owned. The rented warehouse is provided with better facility for the stock than the owned warehouse, but is charged more. The objective of this model is to find the best replenishment policies for minimizing the total appropriate inventory cost. A numerical illustration and sensitivity analysis are provided.

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Inventory Model for Three–parameter Weibull Deterioration and Partial Backlogging

Kaliraman

2019

JAMCS

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This paper develops an economic order quantity inventory model for time dependent three parameters Weibull deterioration. Partially backlogged shortages are considered. The demand rate is deterministic and time dependent. The rate of deterioration is time dependent. We have derived the most favorable order quantity model by minimizing the entire inventory cost. A numerical illustration has been carried out to evaluate the result of parameters on decision variables and the total average cost of the model. The research focus of this paper is to derive the optimum order quantity by minimizing the total inventory cost.

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A production inventory model with exponential demand rate and reverse logistics

Raj¹,

Kaliraman²,

Chandra³

et al. 2014

10.5267/j.ijiec

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The objective of this paper is to develop an integrated production inventory model for reworkable items with exponential demand rate. This is a three-layer supply chain model with perspectives of supplier, producer and retailer. Supplier delivers raw material to the producer and finished goods to the retailer. We consider perfect and imperfect quality products, product reliability and reworking of imperfect items. After screening, defective items reworked at a cost just after the regular manufacturing schedule. At the beginning, the manufacturing system starts produce perfect items, after some time the manufacturing system can undergo into "out-of-control" situation from "in-control" situation, which is controlled by reverse logistic technique. This paper deliberates the effects of business strategies like optimum order size of raw material, exponential demand rate, production rate is demand dependent, idle times and reverse logistics for an integrated marketing system. Mathematica is used to develop the optimal solution of production rate and raw material order for maximum expected average profit. A numerical example and sensitivity analysis is illustrated to validate the model.

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Inventory Model for Deteriorating Item with Exponential Demand Rate and Partial Backlogging

Raj¹,

Kaliraman²,

Chandra³

et al. 2015

IJMTT

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Integrated production inventory model: multi-item, multiple suppliers and retailers, exponential demand rate

Raj¹,

Kaliraman²,

Chandra³

et al. 2015

10.5267/j.uscm

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In this paper, an integrated production-inventory model with multi-item is developed from the perspectives of single producer, multiple suppliers and retailers. In this three-layer supply chain, the retailers are non-competing. Every supplier delivers only single type of raw material to the producer. The producer manufactures finished goods from the combination of fixed percentage of different types of raw materials. The producer manufactures various types of objects and supplies them to retailers according to the demand of multiple retailers. This paper studies the impact of different types of business policies such as exponential demand rate, demand dependent production rate, optimum order size of raw materials, and unit production cost at each stage of integrated marketing system. Mathematica is used to develop the model and to optimize the integrated profit function. A numerical example and sensitivity analysis is illustrated to justify the feasibility of the proposed model.

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