scholarly journals Applications supporting utilization of agile methods in software development process

2020 ◽  
Vol 14 ◽  
pp. 8-13
Author(s):  
Tomasz Bławucki ◽  
Siarhei Ramanovich ◽  
Maria Skublewska-Paszkowska
Keyword(s):  
Software Development ◽  
Development Process ◽  
Agile Software Development ◽  
Agile Methods ◽  
Tabular Form ◽  
Software Development Process ◽  
Internet Applications ◽  
Technical Requirements ◽  
Development Processes ◽  
Agile Software

The article presents a comparison in terms of hardware requirements of applications that supports the agile software development processes. For research purposes, popular mobile and internet applications supporting agile software development were chosen. In order to determine the significance of individual technical requirements for end-users, a series of research experiments, based on scenarios of typical and boundary use was conducted. In addition to research, the application supporting agile software development process was implemented. The results of research were recorded by specialized monitoring and profiling tools. The results of performed work are presented in tabular form.

scholarly journals IMPLEMENTATION OF REUSE IN THE AGILE SOFTWARE DEVELOPMENT PROCESS SCRUM

2017 ◽  
Vol 10 (13) ◽  
pp. 143 ◽  
Author(s):  
Jayasudha R ◽  
Viswanathan V ◽  
Shanthi P
Keyword(s):  
Software Development ◽  
Development Process ◽  
Dynamic Change ◽  
Agile Software Development ◽  
Agile Development ◽  
Software Development Process ◽  
Customer Requirements ◽  
Waterfall Model ◽  
Agile Software ◽  
First Time

The concept of reuse is applied in one of the agile development methodologies called the scrum. Sprint is a single functionality and the result at the end of the sprint functionality is derived as the shippable or bugs. This paper makes an attempt to use the concept of reuse in the agile software development to meet the dynamic change of customer requirements in banks. A banking project is created using both waterfall model and scrum model, and the knowledge gained is stored in the ontology-based repository for the first time. Again, the same project is created for different vendors using the ontology-based repository. The result shows that maximum sprint is reused and all the knowledge gained is stored in the form of ontology. This ontology helps identify the shippable component of each sprint which is a small executable functionality. This leads to less cost and time to deliver the product. The main aim is to increase the availability of the reusable artifacts, which lead to increase the reusability of the developer. The experimental results show improvements in the performance of retrieving the components for the software development.  

Agile Methodology of Development and How to be Compliant

2015 ◽  
pp. 268-283
Author(s):  
Yerramalli Subramaniam ◽  
Avik Pal ◽  
Arindam Dey
Keyword(s):  
Process Control ◽  
Software Development ◽  
Development Process ◽  
Life Science ◽  
Agile Software Development ◽  
Software Development Process ◽  
Agile Methodology ◽  
Agile Methodologies ◽  
Product And Process ◽  
Agile Software

Given that Agile software development is preferred methodology for products and services in life science industry, in this chapter we will describe how to adopt Agile software development process and still be compliant. We will focus on few Agile methodologies and provide details on what design controls we can adopt in order for the product and process to be compliant. We will also focus on some of the tools that can be used to help put such design and process control in place where we can have complete transparency and traceability.

Prototype Design in Agile Product Development Processes for Technical Systems

2019 ◽  
Author(s):  
Michael Riesener ◽  
Christian Doelle ◽  
Sebastian Schloesser ◽  
Guenther Schuh
Keyword(s):  
Software Development ◽  
Development Process ◽  
Agile Software Development ◽  
Agile Development ◽  
Time To Market ◽  
Industrial Practice ◽  
Development Processes ◽  
Technical Systems ◽  
Agile Software ◽  
Product Specifications

Abstract Agile development processes such as Scrum have been successfully applied in the software industry for many years. Based on experience, industrial practitioners indicate three predominant benefits of agile development processes compared to traditional software development processes. First of all, development results better fit customers’ and other stakeholders’ needs. That is because they are intensively involved in the development process by receiving, applying and assessing functional software increments in a defined cadence throughout the development process. Secondly, agile development processes better cope with unexpected changes in the development process due to the built-in process flexibility. Lastly, development speed has significantly increased in most of the agile software development projects, resulting in a shorter time-to-market. Especially in the context of radical innovations for technical systems, manufacturing companies are striving for approaches to optimize their development processes in a similar direction. Traditional plan-oriented development approaches such as VDI 2221 or Cooper’s Stage-Gate Process turn out to be insufficiently customer oriented, too inflexible and project duration is usually too long to reach an adequate time-to-market. For that reason, a large community in academia and industrial practice is developing and implementing approaches to adapt agile software development practices for the development of technical systems. However, a current study in industrial practice reveals that out of 23 objectives, that are expected when introducing agile development processes to technical systems, the three objectives mentioned above, show the largest negative deviations from expected benefit to realized benefit. Therefore, the overall goal of this research is to address these gaps by developing an explicit methodological approach for an agile development of technical systems. It turns out, that mainly the role of prototyping and the way product specifications are handled during the development process change significantly in the course of introducing agility to development of technical systems. Agile practitioners strive to not necessarily define product specifications comprehensively upfront, as it is postulated in plan-oriented development processes. In contrast, product specifications, which are of major importance to the overall development project, are specified and validated with customers and other stakeholders in early prototypes. Therefore, prototypes are realized in a defined cadence throughout the development process to gradually specify and validate the product. However, the way product specifications are prioritized and selected in the development of technical systems has to differ substantially from the general way Scrum or other existing agile development processes propose. That is because technical systems are characterized by multiple technical interrelations, resulting in informational dependencies for the development process. For that reason, a prioritization along criteria such as customer value, development effort and risk seems too narrow in the context of technical systems. In fact, the prioritization of product specifications has to consider both, the value being generated by their realization as well as the informational dependencies towards other specifications. Furthermore, when designing a prototype, time constraints need to be particularly considered due to lead times in parts delivery and prototype production. Therefore, this paper introduces a methodology to prioritize and select technical design parameters in agile development processes. The methodology can be applied in the cyclical sprint planning that aims at defining the scope of the next prototype to be developed. As outlined above, the major paradigms of value generation, informational dependencies as well as lead-time and effort are crucial when adapting agile for technical systems and are consequently implemented in the methodology. These paradigms are operationalized to explicitly address the mentioned major objectives of agile development processes, which are currently showing are large gap between expected benefit and realized benefit in industrial practice. The methodology is applied to the real development process of an RGB laser light source for digital cinema projectors, which is summarized as a case study in the paper. Insights from this application are equally discussed as the resulting next steps in further developing and aligning the methodology to the needs of industrial practice.

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