Software project management

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Software project management is the process of planning and leading software projects. [1] It is a sub-discipline of project management in which software projects are planned, implemented, monitored and controlled.

Contents

History

In the 1970s and 1980s, the software industry grew very quickly, as computer companies quickly recognized the relatively low cost of software production compared to hardware production and circuitry. To manage new development efforts, companies applied the established project management methods, but project schedules slipped during test runs, especially when confusion occurred in the gray zone between the user specifications and the delivered software. To be able to avoid these problems, software project management methods focused on matching user requirements to delivered products, in a method known now as the waterfall model.

As the industry has matured, analysis of software project management failures has shown that the following are the most common causes: [2] [3] [4]

  1. Insufficient end-user involvement
  2. Poor communication among customers, developers, users and project managers
  3. Unrealistic or unarticulated project goals
  4. Inaccurate estimates of needed resources
  5. Badly defined or incomplete system requirements and specifications
  6. Poor reporting of the project's status
  7. Poorly managed risks
  8. Use of immature technology
  9. Inability to handle the project's complexity
  10. Sloppy development practices
  11. Stakeholder politics (e.g. absence of executive support, or politics between the customer and end-users)
  12. Commercial pressures

The first five items in the list above show the difficulties articulating the needs of the client in such a way that proper resources can deliver the proper project goals. Specific software project management tools are useful and often necessary, but the true art in software project management is applying the correct method and then using tools to support the method. Without a method, tools are worthless. Since the 1960s, several proprietary software project management methods have been developed by software manufacturers for their own use, while computer consulting firms have also developed similar methods for their clients. Today software project management methods are still evolving, but the current trend leads away from the waterfall model to a more cyclic project delivery model that imitates a software development process.

Software development process

A software development process is concerned primarily with the production aspect of software development, as opposed to the technical aspect, such as software tools. These processes exist primarily for supporting the management of software development, and are generally skewed toward addressing business concerns. Many software development processes can be run in a similar way to general project management processes. Examples are:

Project planning, execution, monitoring, and control

The purpose of project planning is to identify the scope of the project, estimate the work involved, and create a project schedule. Project planning begins with requirements that define the software to be developed. The project plan is then developed to describe the tasks that will lead to completion. The project execution is the process of completing the tasks defined in the project plan.

The purpose of project monitoring and control is to keep the team and management up to date on the project's progress. If the project deviates from the plan, then the project manager can take action to correct the problem. Project monitoring and control involves status meetings to gather status from the team. When changes need to be made, change control is used to keep the products up to date.

Issue

In computing, the term "issue" is a unit of work to accomplish an improvement in a system. [6] An issue could be a bug, a requested feature, task, missing documentation, and so forth.

For example, OpenOffice.org used to call their modified version of Bugzilla IssueZilla. As of September 2010, they call their system Issue Tracker.[ needs update ]

Severity levels

Issues are often categorized in terms of severity levels. Different companies have different definitions of severities, but some of the most common ones are:

High
The bug or issue affects a crucial part of a system, and must be fixed in order for it to resume normal operation.
Medium
The bug or issue affects a minor part of a system, but has some impact on its operation. This severity level is assigned when a non-central requirement of a system is affected.
Low / Fixed
The bug or issue affects a minor part of a system, and has very little impact on its operation. This severity level is assigned when a non-central requirement of a system (and with lower importance) is affected.
Trivial (cosmetic, aesthetic)
The system works correctly, but the appearance does not match the expected one. For example: wrong colors, too much or too little spacing between contents, incorrect font sizes, typos, etc. This is the lowest severity issue.

Issue management

In some implementations of software development processes, issues are investigated by quality assurance analysts a system is verified for correctness, and then assigned back to a member of the development team to resolve the identified issue. They can also be identified by system users during the User Acceptance Testing (UAT) phase.

Issues can be recorded and communicated using Issue or Defect Tracking Systems. In the absence of a formal Issue or Defect Tracking system, it is commonplace to simply use any form of written communication such as emails or instant messages to communicate the existence of a found issue.

Philosophy

As a subdiscipline of project management, some regard the management of software development akin to the management of manufacturing, which can be performed by someone with management skills, but no programming skills. John C. Reynolds rebuts this view, and argues that software development is entirely design work, and compares a manager who cannot program to the managing editor of a newspaper who cannot write. [7]

Related Research Articles

<span class="mw-page-title-main">Acceptance testing</span> Test to determine if the requirements of a specification or contract are met

In engineering and its various subdisciplines, acceptance testing is a test conducted to determine if the requirements of a specification or contract are met. It may involve chemical tests, physical tests, or performance tests.

<span class="mw-page-title-main">Software testing</span> Checking software against a standard

Software testing is the act of checking whether software satisfies expectations.

<span class="mw-page-title-main">Spiral model</span> Software development process model

The spiral model is a risk-driven software development process model. Based on the unique risk patterns of a given project, the spiral model guides a team to adopt elements of one or more process models, such as incremental, waterfall, or evolutionary prototyping.

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The rational unified process (RUP) is an iterative software development process framework created by the Rational Software Corporation, a division of IBM since 2003. RUP is not a single concrete prescriptive process, but rather an adaptable process framework, intended to be tailored by the development organizations and software project teams that will select the elements of the process that are appropriate for their needs. RUP is a specific implementation of the Unified Process.

<span class="mw-page-title-main">Requirements analysis</span> Engineering process

In systems engineering and software engineering, requirements analysis focuses on the tasks that determine the needs or conditions to meet the new or altered product or project, taking account of the possibly conflicting requirements of the various stakeholders, analyzing, documenting, validating, and managing software or system requirements.

<span class="mw-page-title-main">Systems development life cycle</span> Systems engineering terms

In systems engineering, information systems and software engineering, the systems development life cycle (SDLC), also referred to as the application development life cycle, is a process for planning, creating, testing, and deploying an information system. The SDLC concept applies to a range of hardware and software configurations, as a system can be composed of hardware only, software only, or a combination of both. There are usually six stages in this cycle: requirement analysis, design, development and testing, implementation, documentation, and evaluation.

Web development is the work involved in developing a website for the Internet or an intranet. Web development can range from developing a simple single static page of plain text to complex web applications, electronic businesses, and social network services. A more comprehensive list of tasks to which Web development commonly refers, may include Web engineering, Web design, Web content development, client liaison, client-side/server-side scripting, Web server and network security configuration, and e-commerce development.

Agile software development is an umbrella term for approaches to developing software that reflect the values and principles agreed upon by The Agile Alliance, a group of 17 software practitioners in 2001. As documented in their Manifesto for Agile Software Development the practitioners value:

<span class="mw-page-title-main">Dynamic systems development method</span> Agile project delivery framework

Dynamic systems development method (DSDM) is an agile project delivery framework, initially used as a software development method. First released in 1994, DSDM originally sought to provide some discipline to the rapid application development (RAD) method. In later versions the DSDM Agile Project Framework was revised and became a generic approach to project management and solution delivery rather than being focused specifically on software development and code creation and could be used for non-IT projects. The DSDM Agile Project Framework covers a wide range of activities across the whole project lifecycle and includes strong foundations and governance, which set it apart from some other Agile methods. The DSDM Agile Project Framework is an iterative and incremental approach that embraces principles of Agile development, including continuous user/customer involvement.

Software prototyping is the activity of creating prototypes of software applications, i.e., incomplete versions of the software program being developed. It is an activity that can occur in software development and is comparable to prototyping as known from other fields, such as mechanical engineering or manufacturing.

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<span class="mw-page-title-main">V-model (software development)</span> Software development methodology

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In software engineering, a software development process or software development life cycle (SDLC) is a process of planning and managing software development. It typically involves dividing software development work into smaller, parallel, or sequential steps or sub-processes to improve design and/or product management. The methodology may include the pre-definition of specific deliverables and artifacts that are created and completed by a project team to develop or maintain an application.

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<span class="mw-page-title-main">Extreme programming</span> Software development methodology

Extreme programming (XP) is a software development methodology intended to improve software quality and responsiveness to changing customer requirements. As a type of agile software development, it advocates frequent releases in short development cycles, intended to improve productivity and introduce checkpoints at which new customer requirements can be adopted.

Distributed agile software development is a research area that considers the effects of applying the principles of agile software development to a globally distributed development setting, with the goal of overcoming challenges in projects which are geographically distributed.

References

  1. 1 2 Stellman, Andrew; Greene, Jennifer (2005). Applied Software Project Management. O'Reilly Media. ISBN   978-0-596-00948-9. Archived from the original on 2015-02-09.
  2. "Why Software Fails", in IEEE Spectrum
  3. 1 2 Producing Open Source Software: How to Run a Successful Free Software Project (e-book, freely downloadable), by Karl Fogel
  4. 1 2 Robert Frese and Vicki Sauter, "Improving your odds for software project success," IEEE Engineering Management Review, Vol. 42, No. 4, Fourth Quarter, Dec 2014
  5. Philip Greenspun, in Jessica Livingston's Founders at Work (2007), ISBN   1-59059-714-1
  6. Dane, Bertram (2009). "The social nature of issue tracking in software engineering" (PDF). Archived from the original (PDF) on 2016-11-08. Retrieved 2023-10-07.
  7. John C. Reynolds, Some thoughts on teaching programming and programming languages, SIGPLAN Notices, Volume 43, Issue 11, November 2008, p.108: "Some argue that one can manage software production without the ability to program. This belief seems to arise from the mistaken view that software production is a form of manufacturing. But manufacturing is the repeated construction of identical objects, while software production is the construction of unique objects, i.e., the entire process is a form of design. As such it is closer to the production of a newpaper [sic] — so that a software manager who cannot program is akin to a managing editor who cannot write."
General

Project failure