As defined by NASA: “systems engineering” is defined as a methodical, multi-disciplinary approach for the design, realization, technical management, operations, and retirement of a system. A “system” is the combination of elements that function together to produce the capability required to meet a need. The elements include all hardware, software, equipment, facilities, personnel, processes, and procedures needed for this purpose; that is, all things required to produce system-level results. The results include system-level qualities, properties, characteristics, functions, behavior, and performance. The value added by the system as a whole, beyond that contributed independently by the parts, is primarily created by the relationship among the parts; that is, how they are interconnected. It is a way of looking at the “big picture” when making technical decisions. It is a way of achieving stakeholder functional, physical, and operational performance requirements in the intended use environment over the planned life of the system within cost, schedule, and other constraints. It is a methodology that supports the containment of the life cycle cost of a system. In other words, systems engineering is a logical way of thinking.
Systems engineering is the art and science of developing an operable system capable of meeting requirements within often opposed constraints. Systems engineering is a holistic, integrative discipline, wherein the contributions of structural engineers, electrical engineers, mechanism designers, power engineers, human factors engineers, and many more disciplines are evaluated and balanced, one against another, to produce a coherent whole that is not dominated by the perspective of a single discipline.
We believe the technology is developing rapidly and a good system engineer needs to master existing technologies, know how to integrate different type of technologies into the whole solution and maximize the re-use of good assets and when no COTS technology exists, develop new capability needed.
We live in an age where cyber threats are immediate risk to any technological and business achievement.
The modern communication network is a vital layer that enables the adoption of digital technological innovation and advanced application operation.
The company was established by engineers and project managers with extensive experience in providing
Our data centers group has initiated, designed, planned, and managed the most modernized, protected, redundant, innovated and cloud ready data centers on Israel for defense and enterprise customers.About projects
KD-ICT is leading the adoption of technologies bringing the High-Bandwidth, IP based services, and IoT into academic institutes, and other entrepreneurs, involving all level design and implementation as needed:About projects
KD-ICT is Bringing the IoT revolution to the public domain innovating new Digital services and technology and creating the next generation of smart technologies to the public.About projects
The cloud provides on-demand computing resources and services in locations all over the world allowing high capabilities, and low latency, with pay-as-you-go pricing. The cloud can provide the dynamic use of database storage, content delivery and various other functionalities.About projects