P-Modeling Framework

P-Modeling Framework is a package of guidelines, methods, tools and templates for the development process improvement. P-Modeling framework can be integrated into any other SDLC in use, e.g., MSF Agile, MSF CMMI, RUP, etc.

History

The origins of P-Modeling Framework come from "The Babel Experiment" designed by Vladimir L. Pavlov in 2001 as a training program for software engineering students that was aimed at making students go through a “condensed” version of communication problems typical for software development and gain the experience of applying UML to overcome these problems.

This experiment was done in the following manner. A team of students was assigned the task of designing a software system with the following restriction factor: UML had to be the only language allowed for communication while working on the project. The premise was intended to make students go through a “condensed” version of communication problems typical for software development and gain the experience of applying UML to overcome these problems. As the result of this experiment, students developed quite clear and concise models.

A little later, during a design session, there were two independent teams working on the same task. The communication means of the first team was restricted to UML as described above, while the other team was allowed to communicate verbally using a natural language. It turned out that the first, more restricted team, performed the task more efficiently than the other one. The UML diagrams created by the first team were more sound, detailed, readable, and elaborated.

Subsequently, Vladimir L. Pavlov conducted a number of additional experiments intended to reveal whether the “silent” modeling sessions are more productive than the traditional ones. In these experiments, silent teams appeared to be at least as efficient as the others, and in some cases the silent teams outperformed the traditional ones.

Some of the interpretations of these results are the following:

Afterwards, ideas were constructed for conducting additional new experiments with the intention of finding a method to compare UML to natural languages. The premise in these experiments was to set up forward (from a natural language to UML) and backward (from UML to the natural language) "translation" tasks for two teams of professional software designers. This would be done with one team performing the forward translation and the other one performing the backward translation. The intention was to observe how closely the outcome of the backward translation resembled the original text, thus providing verification of correctness of UML model.

The experiments showed that, for information describing software systems, UML has sufficient power of expression required to maintain the model's content. Texts obtained after the backward translation from UML were semantically equivalent to the original.

The experiments suggested the model of the entire software development cycle existed as a series of translations. In subsequent experiments backward translation verification has been demonstrated as a method to help guarantee deliverables of each development step do not lose, or have misinterpreted, anything that was produced at the previous step. This method has been named "Reverse Semantic Traceability." It has proven to be a solid second part completion to the P-Modeling Framework.

Basic principles

Reverse Semantic Traceability

Reverse Semantic Traceability is a quality control method that allows testing outputs of every translation step. Before proceeding to the next phase, the current artifacts are “reverse engineered”, and the restored text is compared to the original. If there is a difference between these two texts – the tested artifacts are corrected to eliminate the problem (or initial text is corrected.) Consequently, every step is confirmed by stepping back and making sure that development stays on the correct track. In this way, issues may be discovered and fixed without delays, so they do not accumulate, and do not cascade to subsequent phases of the development cycle.
The key word in the name of this method is “Semantic.” It is based on the fact the original and restored versions of a text are to be compared semantically, with a focus on the “meaning” of the text, not on particular “words” used in it.

The highest usage scenarios reported by early adopters of Reverse Semantic Traceability method are:

Speechless modeling

Being originally invented as an advanced training to teach Object-Oriented Analysis and Design with UML to students, the Speechless Modeling, in essence, is a restriction on using communication means directly or indirectly involving a natural language. In this way, a team of designers is forced to use the modeling language as the only language available for communication during a design session.

Incorporating P-Modeling Framework into Software Development Life Cycle (SDLC)

Regardless of what type of development process is used in an organization; waterfall, spiral, various iterative-incremental or some others, there are certain processes, such as software design, quality control, human resources management, risk management, communication management, etc. to which can P-Modeling Framework principles can be applied, especially in the earlier stages of a project when quality control activities are either minor or (virtually) absent.

Requirements and limitations

  1. All the P-Modeling Session members should speak some graphical modeling language fluently.
  2. Minimum of 8 qualified people required for full-blown P-Modeling Session.
  3. Minimum of 3 qualified people required for an efficient RST Session.
  4. P-modeling Framework doesn’t provide the possibility to detect ambiguous, contradicting, and incomplete aspects in requirements or client requests.
  5. Speechless Modeling Session requires large amount of energy and efforts from participants.

Criticism

P-Modeling Framework obviously has some room for further improvement. For example:

References

External links

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