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The purpose of this paper is to explain how the author had carried out the implementation of the radio-frequency identification (RFID) system at Central Library, Fakiragram College and to explain to the library professional on how to integrate RFID with Koha integrated library management system (ILMS) in their respective library without taking IT/technical experts assistance. This paper will encourage library professionals to implement RFID technology for the library security and embrace open source software in their institutions.

The paper describes the author’s practical experiences regarding implementation of the RFID system and integration of middleware RFID software with library management software.

From the present study, it was found that the library staff are having a positive attitude toward embracing RFID technology in their library. The present implementation of RFID technology in the studies area gives a clear picture about integrating a third-party software/tool like RFID to the existing systems and how the new system has helped the library to provide better service to their users

There were some teething problems at the start between the Koha ILMS SIP2 software and the RFID system. The main issue faced while integration was with setting up the hostname, integrating the instance (i.e. database) and with setting up the port.

This paper will help librarians to implement RFID technology in a practical way to their libraries. The author implemented Koha ILMS with RFID system at the Central Library, Fakiragram College within 1 month and the author migrated data from common communication format (CCF) format to MARC 21 formats. CCF is basically used in SOUL 2.0 developed by INFLIBNET.

This study discusses issues and possible solutions in the process of implementing RFID applications for two innovative applications in library services. This will influence library professionals to learn Koha ILMS and RFID technology implement it in their libraries.

This paper aims to provide image repository to the medical professional in an open source platform, which will increase the visibility of Digital Imaging and Communication in Medicine (DICOM) image in a network mode; further, the proposed system will reduce the storage cost of the images to significant level.

The authors have developed a new institutional repository model for the medical professionals cum radiologists to preserve, store and retrieve medical images from one database with the help of open source software. The authors used JavaScript programming to integrate and develop the DICOM Standard with DSpace.

Major outcome of this work is that DICOM images can be accommodated in DSpace without modifying the image properties and keeping intact the various dimensions of image viewing options. Further, it was found that the images are retrieved without any ease because of the robust indexing system.

Major limitation of this study was the size of the data (5000 DICOM image) with which the authors have tested the system. The scalability of the system has to be tested on various fronts, for which separate study has to be done.

Once this system is in place, DICOM user can store, retrieve and access the image from Web platform. This proposed repository will be the storehouse of various DICOM images with reasonable storage costs.

In addition to exploring the opportunities of open source software (OSS) implementation in Medical Fields, this study includes issues related to implementation of open source repository for storing and preserving medical image. This is the first time in Library Science field to create and develop Open Source DICOM Medical Image Library with the help of DSpace. The study will create value for library professionals as well as medical professionals and OSS vendors to understand the medical market in the context of OSS.

This paper aims to provide an overview of the need and current development of document viewers for digitized objects in DSpace repositories, including a local viewer developed for a document collection as like research papers, thesis and dissertation.

The authors developed the concept for the to preserve and store all types of document in one data base with the help of open source software (OSS). The authors used Java Script programing to integrated and developed the system.

The major finding of our work is that large document file can be accommodated in DSpace without modifying the originality of the documents and viewing the document in a different dimension as a specialist needs. The combination of current technologies such as Google Doc Viewer and the Internet Archive Book Reader, as well as the growing number of digital repositories hosting digitized content, suggests that the DSpace community will probably benefit with an “out-of-the-box.”

In addition, to exploring the opportunities of OSS implementation in different research institutes, the study includes issues related to the implementation of the open source repository. This is the first time in India, as well as DSpace history to created and developed Document Viewer with the help of DSpace OSS. The study would have value for library professionals and the developer to understand the market in the context of OSS.

This paper aims to present a novel DSpace-based medical image repository system planned explicitly for storing and retrieving clinical images using digital imaging and communication in medicine (DICOM) metadata standards. DSpace institutional repository software is widely used in an academic environment for accessing and mainly storing text-related files. DICOM images are particular types of images embedded with much system-generated metadata and organised using DICOM metadata standards.

The present paper talks about institutional repository software (DSpace) in archiving DICOM images. In the current study, the authors have tried to integrate the DICOM metadata standard with DSpace, which was compatible with Dublin Core (DC) and open archives initiative – protocol for metadata harvesting (OAI-PMH). After combining the DICOM standard with DSpace and the repository tested with a sample of 5,000 images, the retrieval results using various DICOM tags was very satisfactory. This study paves for the use of open source software (OSS) in storing and retrieving medical images.

The author has provided the DSpace software to recognised DICOM (.dcm) files in the first stage. In the second stage, a patch was developed to identify the DICOM metadata standard in Dspace, which has inbuilt DC metadata standards. Finally, in the third stage, retrieval efficiency was tested with a 5,000 .dcm image using the DICOM tag and the results were very fruitful.

A major limitation of this study was the size of the data (5,000 DICOM images) with which the authors have tested the system. The system scalability has to be tested on various fronts like on cloud and local servers with different configurations, for which a separate study has to be done.

Once this system is in place, DICOM users can stock, retrieve and access the image from the Web platform. Furthermore, this proposed repository will be the warehouse of various DICOM images with reasonable storage costs.

In addition to exploring the opportunities of free open source software (FOSS) implementation in medical science, this study includes issues related to the performance of an open-source repository for retrieving and preserving medical images. It created and developed Open Source DICOM Medical Image Library with DICOM metadata standard with the help of DSpace. Thus, the study will generate value for library professionals and medical professionals and FOSS vendors to understand the medical market in the context of FOSS.