The software game development business is rapidly expanding and becoming increasingly important. The game production community faces a lot of strain as well as a lot of difficulties and obstacles as a result of this expansion.

Game development is a complicated process and the development decision is to consider the developer perspective.  To improve the game development process and generate high-quality software games.

A computer software research and development (R&D) engineer is an important member of any modern R&D team. Like that of other members of the R & D team, the major concentration of the computer software engineer, like that of other members of the R&D team, is on designing and developing an innovative new product.

For example, a computer software developer may create bespoke software to make data collection more efficient for a given project. They may also create a new statistical algorithm that will better evaluate the acquired data since it is much better at adhering to the system’s restrictions.

The computer software engineer may also work on the software required for the final project in addition to improving the research process. The computer software engineer may enhance existing control software or develop an entirely new program to control the expected final result while establishing software controls.

The scientific approach must be well-understood by computer software R&D developers. They must also have a thorough grasp of a variety of computer programming languages, including C, C++, C#, and Java. These software developers should also be familiar with Linux environments.

R&D is a new technology that iFun4all has been developing: a system for automatic game modeling based on real-world data. Furthermore the development and usage of an intelligent testing agent and the automation of the game balancing process.

Through the creation and deployment of an intelligent testing agent and the automation of the game balancing process, R&D efforts will develop a system for automatic game modeling based on real-world data.

The system will be created to allow users to create their video games by basing their functionality (scenario and game model) on real-world data and then adapting it to the game environment – real-world data.

Games produced using the intended solution will be aimed at players who are always looking for and anticipating new elements in the game that will allow them to reach the highest level of immersion, or “submergence,” in the game. On a global scale, the system will be technological innovation.

Intelligent Testing Agent:

Games produced using the intended solution will be aimed at players who are always looking for and anticipating new elements in the game that will allow them to reach the highest level of immersion, or “submergence,” in the game. On a global scale, the system will be technological innovation.

For each event in the real world (rain, day/night, traffic jams, smog, exchange rates, city events such as demonstrations or disasters, etc. ), it will be necessary to prepare changes in the gameplay that will affect the variable (lock/unlock some routes available to the player to reduce/increase visibility, improve/worsen the opponent’s eyes and ears, etc.).

Any such modification in gameplay must be thoroughly tested to ensure that the game’s overall balance is maintained, as well as to eliminate any obvious faults or changes in the game that would prohibit the player from continuing the game.

Currently, personnel participating in the game’s development process are manually testing different intended versions of the gameplay. There are no automated solutions or technologies available on the market.

Given the Company’s ambitions to expand the number of RWDs used to develop gameplay, evaluating each variation and then altering them will necessitate a significant increase in the workload of testers, programmers, level and gameplay designers, and maybe graphic designers.

It became important to create solutions that would automate the testing process to discover the optimum combination of gameplay characteristics while preserving the necessary balance. A precise set of game settings will be produced as a consequence of utilizing the automated testing agent for each variation of the game using the RWD.

To summarize, the initial capability demonstrating the design’s novelty will be to construct and utilize an intelligent testing agent in the process of creating your video games, which will be able to test and generate an unlimited number of pathways quicker than a human. It will reduce the time and expense of video games while also providing gamers with a unique design that will surprise them at every turn.

Automatic Balancing Gameplay:

In video games, balancing the gameplay should be regarded as a concept and a collection of methods for adapting the gameplay to the user while also preventing the game’s many components from malfunctioning. The result of poor gameplay balancing might be the cancellation of the game’s whole set of rules, preventing it from being completed.

In comparison to solutions utilized in games, the major benefit that this solution provides to game makers is cost savings in terms of time and cost in the game manufacturing process, as well as automation of the completed product updates.

The benefit of this solution will be passed on to consumers of the end product, which is a video game built using the solution. Players seeking a genuine gaming experience will be able to fully appreciate the product, which adjusts all data transferred from the real world to the game environment while preserving the game’s proper balance, allowing for seamless and continuous gameplay.

Automatic Game Modeling Based on RWD:

From the player’s perspective, the final and most important stage of RWDs utilization in the planned solution is to utilize them to change gameplay in real-time.

This sort of modification enables the creation of a multi-dimensional game that, in practice, will communicate with the game engine to get system input on current information from the player’s region, and then execute the relevant variation in real-time.

For example, if it starts to rain in the player’s area, the game will adapt rainy weather to the game environment based on the information received from the system, changing not only the visuals but also the model of the behavior of other characters, including adversaries, who have worse sight or seek shelter as a result of the rainy weather.

This feature provides several advantages to players who will be the final recipients of the items. To begin, incorporate real-time features into the game, such as – The weather, the weather conditions, the weather conditions, the weather conditions, the weather conditions, – The time of day (day/night) – Traffic information – Data about the economy (data from the stock exchanges, the currency market).

Because the behavior of characters, enemies, and the look of the place will vary due to adapting the aforementioned elements to the game, this will allow construction of the world of the game in an unlimited number of configurations, therefore allowing one person to complete it several times. In the case of some types of games, this will result in the creation of an entirely new gameplay model based on the same title.

This feature is especially useful for creating adventure and stealth games. The player is rewarded for concealing and employing trickery to avoid or kill adversaries in the latter type. This type of product allows players to remain unnoticed by utilizing stealth, disguises, or avoiding noise.