We Make You Better

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Our Platform Architecture

Intelligence Platform

Our Service Focus

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Our System Development Model

turning data

Creating Business Intelligence


Better Profit

Improve Productivity

Updated Business Intelligence


Sustainable Quality Assurance
Managable Dedicated Delivery Teams
Proven Technology Consulting
Reliable Maintenance  


EZDOM focus is in designing and implementing sustainable, highly secured platform-based integrated IT solutions with cutting-edge tools and artificial intelligence technologies targeted for the browser, web, cloud and mobile system. Our development facility and methodology focus on deliverables that meet the customer’s commercial requirements and business needs. We deploy system to better your business profitability. We deliver Intelligence Platform solutions with the combination of services as shown above.

1. Artificial Intelligence System


Our Artificial Intelligence Systems are solution utilizing computer systems that are able to perform tasks normally requiring human intelligence, such as visual perception, speech recognition, decision-making, and translation between languages. There are too many definitions some common of them are as follows:


  1. The ability of a digital computer or computer-controlled robot to perform tasks commonly associated with intelligent beings.
  2. A machine completing the tasks which involve a certain degree of intelligence which was previously deemed only to be done by humans.
  3. Is the simulation of human intelligence processes by machines, especially computer systems? These processes include learning, reasoning, and self-correction.
  4. The capability of a machine to imitate the intelligent human behaviour


All the definitions above are correct, but what it really boils down to is “how close or how well a computer can imitate or go beyond, when compared to the human being”.


Building an artificial intelligence infrastructure requires a serious look at storage, networking and AI data needs, combined with deliberate and strategic planning.


Organizations need to consider many factors when building or enhancing an artificial intelligence infrastructure to support AI applications and workloads. These are not trivial issues. A company’s ultimate success with AI will likely depend on how suitable its environment is for such powerful applications. While the cloud is emerging as a major resource for data-intensive AI workloads, enterprises still rely on their on-premises IT environments for these projects.


EZDOM provide the AI System services to ensure your deployment success. We have detailed the intricacies of what’s needed and what’s not for your organization to decide.

2.Information Technology System


Information Technology (IT) is the use of computers to store, retrieve, transmit, and manipulate data, or information, often in the context of a business or other enterprise. IT is considered to be a subset of information and communications technology (ICT). An information technology system (IT system) is generally an information system, a communications system or, more specifically speaking, a computer system–including all hardware, software and peripheral equipment – operated by a limited group of users.


EZDOM TECHNOLOGY design and build such a system. We utilized the four components that mostly makeup of a complete Information Technology System – Servers, Storage, Software, Network.


EZDOM support in the deployment of high-performance engines that form the architectural backbone for multicloud, AI, blockchain, data analytics and your other strategic initiatives.


EZDOM ensure security for your enterprise with physical and software-defined storage solutions for on-premises, cloud, converged and virtualized environments.


EZDOM maximize the value of your infrastructure with multi-platform software and operating systems that accelerate your workloads and simplify administration.


EZDOM works with partners in making sure the effectiveness of all data communication in the local and global network are sustainable for delivering of information to users.

3.Software Development


Software development is the process of developing software through successive phases in an orderly way. This process includes not only the actual writing of code, but also the preparation of requirements and objectives, the design of what is to be coded, and confirmation that what is developed has met objectives.


Every Business firm or organization needs a software program to perform various tasks which can ease out the work of a person and reduce the requirement of manpower. Software Developers use a process known as Software Development Life Cycle (SDLC) to Design, Develop and Review High-Quality Software. The purpose of SDLC is to produce something which fulfills the expectations of the customer and completes in estimated time and cost.


Software Development Life Cycle is a basically a detailed plan which describes how to create, maintain, alter and improve a specific software product (program).


Software Development Life Cycle (SDLC) consists of the following stages:


3.1 Planning

Planning is the most important phase of the SDLC, it is performed by the experienced people of the organization as the output and information generated by this phase will be responsible for creating a blueprint for product development. Planning helps a project to implement flawlessly and affects its progress positively.


3.2 Analysis

In this phase, project manager, stakeholders and user (Customer) discuss the requirements of the system, and also discuss about the things like “Who is going to use the system?”, “How he will use the system?”, “What type of data is needed?” Etc. After gathering all the information about requirements for the system the process of development moves forward in the direction of designing.


3.3 Design

Based on the requirements generated in the analysis and requirement phase a designed approach is adopted to define the architectural modules of our system which are further followed to create the product.


3.4 Implementation

On receiving system design documents, the work is further classified into parts (Modules) and actual development of products starts. This Is the longest phase of the SDLC. If the design phase (previous phase) is implemented properly, code generation in this phase is achieved without any problem. Once our software is developed properly, it goes for a proper review to check whether it is functioning properly or not.


3.5 Testing

After the code is implemented completely it is checked against our requirements, whether it is addressing our needs which are gathered in the analysis phase or not. In this phase, all the defects of our software are tracked and fixed until we obtain our desired product with the defined quality standards.


3.6 Deployment and Maintanance

When the products successfully pass the testing phase, it is deployed to the user for Beta Testing for finding bugs so they can be resolved. When our targeted customers start using the product on the basis of their feedback the system is improved for flawless working, this process is known as maintenance.


Our software development focus on integrating user interface to the artificial intelligence platform based backend. These require specific expertise in the knowledge of activating and receiving messages or APIs to the backend.


EZDOM ensure the selection of development tools that support the current business need and future growth.

4.System Integration


System Integration is the process of integrating all the physical and virtual components of an organization’s system. The physical components consist of various machine systems, computer hardware, inventory, etc. The virtual components consist of data stored in databases, software and applications.


The process of bringing together the component sub-systems into one system (an aggregation of subsystems cooperating so that the system is able to deliver the overarching functionality) and ensuring that the subsystems function together as a system, and in information technology] as the process of linking together different computing systems and software applications physically or functionally, to act as a coordinated whole.


EZDOM – System Integrator – integrates discrete systems utilizing a variety of techniques such as computer networking, enterprise application integration, business process management or manual programming.


System integration involves integrating existing, often disparate systems in such a way “that focuses on increasing value to the customer” (e.g., Improved product quality and performance) while at the same time providing value to the company (e.g., Reducing operational costs and improving response time).


In the modern world connected by the Internet, the role of system integration engineers is important as more and more systems are designed to connect, both within the system under construction and to systems that are already deployed.


EZDOM integration services are critical in such a situation and also when on-prem system are connected to the cloud service provider or providers.

5.Surveillance Systsem


Surveillance System utilized image and sensor technologies for monitoring of events. Surveillance cameras are video cameras used for the purpose of observing an area. They are often connected to a recording device or IP network, and maybe watched by a security guard or law enforcement officer. Cameras and recording equipment used to be relatively expensive and required human personnel to monitor the camera footage, but analysis of footage has been made easier with automated software that organizes digital video footage into a searchable database and by the video analysis software. The amount of footage is also drastically reduced by motion sensors which only record when motion is detected.


Surveillance systems should be monitored through the use of quality indicators with specific attributes. The operation and characteristics of most surveillance systems are relatively complex, but every surveillance system can be described with respect to the following nine basic attributes:


  1. Simplicity refers to the system’s structure and ease of operation.
  2. Flexibility is the ability of the system to adapt to changing information needs and operating conditions with minimal additional cost.
  3. Data quality is the completeness and validity of the data collected through the system.
  4. Acceptability is the willingness of persons and organizations to participate in the system, including those who operate the system, report cases of the disease, or use the data.
  5. Sensitivity is the proportion of cases of a disease detected by a surveillance system and the ability of the system to monitor changes in the number of cases over time, such as outbreaks.
  6. Predictive value positive is the proportion of cases reported through the system that are accurately diagnosed instances of the disease under surveillance.
  7. Representativeness is the extent to which the system accurately describes the occurrence of the disease over time and its distribution in the population by place and person.
  8. Timeliness reflect the delay between steps in a surveillance system and the availability of information for control of the disease under surveillance when needed.
  9. Stability is the ability of a surveillance system to collect, manage, and provide data without failure and to be operational when needed.


The attributes of a surveillance system affect the ability of the system to meet its objectives and the usefulness of the resulting information. For example, if a surveillance system has high sensitivity it will be more likely to detect outbreaks of the disease under surveillance, thereby promoting their investigation. If a system is timely, it will allow quicker initiation of control and prevention measures, limiting the spread of disease in a community.


The attributes of a surveillance system are often competing and inversely related. As one becomes stronger, others become weaker. Therefore, not all of the attributes can be at the highest level for a particular system.


Efforts to improve certain attributes might detract from others and affect the overall effectiveness of the system. A conscious effort is needed to determine which attributes are most critical for a surveillance system so that the objectives of the system can be achieved.

6. What Do We Do


Combining all of the services, EZDOM intents are to deliver a sustainable artificial intelligence platform-based solution to our customers. We understand is that the next of applications and solutions must have the technologies of artificial intelligence as part and component of a full system for better benefits to the end-users.


AI technology has a long history, which is actively and constantly changing and growing. It focuses on intelligent agents, which contains devices that perceive the environment and based on which takes action in order to maximize goal success chances. In the context of the modern digitalized world, Artificial Intelligence (AI) is the property of machines, computer programs, and systems to perform the intellectual and creative functions of a person, independently find ways to solve problems, be able to draw conclusions and make decisions. Most artificial intelligence systems have the ability to learn, which allows people and organization to improve their performance over time.


EZDOM philosophy is to provide solutions that will cater to the future needs of our customers. Our solution focusses on delivering artificial intelligence platform-based implementations. Our goal is to ensure organizations are better served with better business intelligence.



Who We Are

A partner to help you build intelligence system to better your business efficiency and profit. We provide intelligence software solution to specific business needs. We apply stringent product development strategy and design process. We want our products to exceed our client expectation. Our mission is to improve our customer efficiency and profitability to ensure EZDOM growth.

We are providing services to improve your efficiency and profitability.