Which is developed over a 20 years of software development has been portable to a vast range of Hardware, Software platforms. This software works in range of 100 MHZ systems to 4 GHZ system with ease. It works from platforms from Windows 98 to Windows 10 Server class of systems. Even in the Data handling it works from database systems from MS -Access, MSSQL, ORACLE and My-SQL which are prominent in the market.
In case of artificial intelligence it is the human nature which is involved. We specify the end target for any purpose in case of A.I.M.S. we did the same. The collection of vast amount of information which is deemed for specific purpose in any defined format rendered by the user for any specific task which can be provided to the end user.
The idea of symbolic operations became more concrete with the development of computers. The first general-purpose computer designed (but not built until 1991, at the Science Museum of London) was the Analytical Engine by Babbage (1792-1871). In the early part of the 20th century, there was much work done on understanding computation. Several models of computation were proposed, including the Turing machine by Alan Turing (1912-1954), a theoretical machine that writes symbols on an infinitely long tape, and the lambda calculus of Church (1903-1995), which is a mathematical formalism for rewriting formulas. It can be shown that these very different formalisms are equivalent in that any function computable by one is computable by the others.
History of A.I.M.S. started with an initiative in developing a large project for the Brazilian Government, during which the proposal of a large program to build an exclusive graphical interface for a weather forecasting module. This would take a large amount of time and resources if developed conventionally. An engineered way to develop a tiny module which can then process large data at the background to really render an active feed by the super computer to a Onyx 2 Note super Computer was the only solution which was feasible at that time. The portability of the application was successful in such a procedure to be able to understand the efficiency of a full-fledged program to a one hundredth sized program by dividing logic away from code. The use of fuzzy logic seemed appropriate to the time slicing method which enables large executions.
The development of A.I.M.S. which was a unique architecture was to expedite the process of Application building by the users than by the programmers who find it difficult to understand the very essence what the user wants. Artificial intelligence with the help of fuzzy logic helps in binding rules which enable the user of A.I.M.S. to create rules for the end user, which is not desirable in sequential programming.
The use of fuzzy logic needs to be tested and retested to accommodate various requirements to provide and clear defined base in achieving the purpose of the user. Defining programs and rules for a set of unknown values is Intelligence. This can be tested only in terms of time and achievements obtained by it.
During the course of development of A.I.M.S. the major hurdle was the time, this is because of unknown types of technological fronts. The A.I.M.S. is independent of the platforms be it Operating System, Database, Programming Languages or various hardware which it uses to work as a single entity. Probably further version of A.I.M.S. will come with, working with multiple databases simultaneously using tunneling, data free of database restrictions. These enable software to have a Mind of its own.
The current architecture uses the database to sync into a single control rather than the application itself. The control stimulus can be further enhanced by providing a speculated hardware interface to provide a rulebook which is being currently tested for the betterment of the system. The rule book can redefine the existence of intelligence far more complicated. The rulebook can comprehend mass production of procedures which can be complex, be called for a given purpose by the user to enhance the efficiency is already tested for more than ten years and is able to comprehend use of intelligence to its core.
With the help of A.I.M.S., Programmers can develop critical business process software with ease and at most accuracy. A.I.M.S. is unique due to its independent design with respect to Databases which it uses and the programming languages which it supports. Application Development in A.I.M.S. is as simple as using Paint Brush. It is an art of making screens and linking module. Application
Development in A.I.M.S. is as simple as using Paint Brush. It is an art of making screens and linking module. A.I.M.S. becomes important as itís the only technology in todayís world which can support and succeed in achieve what software developer dream of. Thatís RTSE With A.I.M.S. can empower students to call themselves Software Developer and not just programmer of certain programming language as A.I.M.S. is independent of the programming language and the platforms.
For Ex. CRM (Customer Relationship Management Applications), BPM (Business Process Management Applications), ERP (Enterprise Resource Planning Applications), Business Software Solutions, Management Information Systems, Supply Chain Management Applications. Etc.
Static & Dynamic Websites.
High End Data Analytics Software Applications, Traffic Control Systems, MIS, ERP Applications For Large Scale Data Management.
The possibility of IOT devices like arduino and other microcontroller based interfaces makes it possible for a seamless interface. These hardwares can provide higher processing power than computers which allows preprocessing of data and passing information to the computers. The initiation of robotics with an intermediate interface could lead to ground breaking leap in the applied science category.