CHIEF ENGINEER-AEROSPACE AND DEFENSE:
Bullisher is a data-centric fintech solution provider in the aerospace and defense industry for institutional level investors, looking to disrupt and revolutionize a $3 trillion dollar industry. We spearhead an industry-leading Blackbox to facilitate and administer trade agreements pioneered by a vehicle, driven by our new generation benchmark delivering solutions through innovation with uncompromising agility. Predicts trends in the aerospace and government defense entities, predicts trends in political shifts and the ability to influence actual effect changes in government policies through innovation.
JOB DESCRIPTION:
The oversight requires you to construct a security kernel design approach for system assurance specification, implement the instrumentation and data acquisition systems engineering standardized executable architecture framework lifecycle defined in DoDAF tasks force and NAF task force. There will be numbers of specifications to be implemented: Areas to cover will include - security views, threat risk analysis, human systems integration (HSI), strategic operational services, taxonomy, structure & connectivity, behavior, how to manage information, parameters, roadmap, traceability, usage views, monetizing, trade studies, identifying business needs, functional views, disruption identifying cognitive services, implementation view, analytics and edge architecture, cyber security analysis, dynamic simulations/execution to verify behavior (state, activity levels, messaging sequences, computational analysis, parametric analysis, and architecture optimization). This will be the catalyst that will drive the entire infrastructure, integration of a finite number of constituent systems which are independent and operable and network together. You will be taking systems that may not or may exist already and try to merge them together in order to achieve our higher level goals and improve that. Building up that view so that we can manage and develop this systems of systems. The infrastructure will be established prior to success dependent on the applications of solid engineering and model-based systems engineering (MBSE) that enables the engineers to manage the interfaces, allocation of behaviors, evolution of the technology, and system security.
METHODS TO FOLLOW: Develop a complex systems of systems architecture and how they evolved: Areas to cover will include- The System Modeling language supports systems engineers, systems requirements, structure, and the behavior throughout the system lifecycle. Operational independence from geographical distribution which interacts with emergent behavior, a large geographic spread directed and manage subsystem to fulfill a specific purpose. Any changes in the interfaces are based on cooperative agreements will undergo a formal approval, review and voted by representatives for Security impact analysis, THE C.A.B (CHANGE APPROVAL BOARD). There will be no central management authority or visible mechanism maintaining it. Component systems interact to fulfill central purposes. Systems of systems will be operational independence. Its geographic limits will be composed of unique elements of existing systems and their own evolutionary lifecycle. Military systems have their own unique characteristics, each of these have their own evolutionary lifecycle. This system translates capability objectives, monitoring and assessing changes, understanding systems and relationships, developing and evolving systems of systems architecture, assessing performance, addressing requirements and orchestrating upgrades to systems of systems in real time.
This number of components may change; the data acquisition might evolve over time. An additional value will drive new requirements and new features - From the edge where command & controls are effective by current conditions all the way to the edge data center where data analytics are performed for example; predictive maintenance, and continuous process improvement. We are a startup enhancing the formation of early stages of a product development project. The oversight gives you the opportunity to become the big bird eye view of the organization regulatory engineering division foundation building-blocks (Across a fabric of scalability best practices on the many of most exciting engineering projects and technologies). You will micromanage the Divisional chief engineers alongside the cross-functional engineering teams.
ENVIRONMENT: This position will operate in the following areas of the organization regulatory engineering division MULTIDOMAIN DEFENCE DOCK:
MULTIDOMAIN DEFENCE DOCK: Standard engineering lab environment.
Employees must be legally authorized to work in the UK. Verification of employment eligibility will be required at the time of hire. Visa sponsorship is not available for this position.
QUALIFICATION, REQUIREMENTS AND SKILLSET:
* PHD in systems engineering, Systems Architect, MBSE SPECIALIST, Digital Engineering, MEng Mechanical Engineering degree is essential.
* 20+ years experience managing complex engineering projects and risk management and cross-functional teams.
* Offensive Security Certified Professional (OSCP), Certified Information Security Manager (CISM) is essential.
* Certified Authorization Professional (CAP)
* Information Systems Security Engineering Professional (ISSEP)
* Certified Information Systems Security Professional (CISSP)
* Certified Cloud Security Professional (CCSP)
* Information assurance system architecture and engineer (IASAE)
* It is prerequisite to be certified one of the listed DoD 8570 Certifications.
INTERVIEW PROCESS:
* STAGE 1: COGNITIVE ABILITY TEST
* STAGE 2: COGNITIVE ASSESSMENT SCREENING: WITH A 30+ YEARS EXPERIENCE PSYCHOLOGIST:
* STAGE 3: PRE-SCREENING (verification checks & DV security clearance)
* STAGE 4: INTERVIEW WITH THE: CEO, CTO & GC
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