- June 9, 2024
- Posted by: saul.marong@gentrianlimited.com
- Categories:
OPTICAL ENGINEERS- (OPTICS MODELING ENGINEERING): 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 revolutionise a $3 trillion dollar industry. We spearhead an industrial-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 technology government defense entities, predicts trends in political shifts and the ability to influence actual effect changes in government policies through innovation.
JOB DESCRIPTION:
Connected industrials and military systems are dynamic and they’ll require different specific data communications patterns. There’s going to be real-time command and control, there will be live streaming sensor data, and large amounts of data for analytics. The data distribution should be well suited for all the communication patterns because of the rich service policies specify by the standards. We use these policies to tailor the behavior of the data real-time command and control. As a newly created team of seven- The oversight is permitted by THE MISSION INTELLIGENCE DIVISION, requires you to design workflows for space-bound optics laser communications systems and analyse the simulation and optical and mechanical tolerances, optical components modeling, lens stack optimization. Areas to cover will include: Optical development software’s. A design set-up to incorporate system specifications before the final design is reached. Once’s the initial system is optimized based on different operands and constraints to meet the performance requirements depending on the application. There might be need to do design iteration depending if the system meets all the requirements- Methods to follow: Perform a tolerance analysis, (different optical and mechanical housing will be added to the system to analyze systems sensitivity). Engineers may need to reoptimized the system if the sensitivity is still too high. The design process may need couple more iteration depending on how optical performance is effected due to the structural and thermal analysis. The system will be optimized, we’ll have system requirements and considerations that’s needs to take into account. Areas to focus: wavelength and Aperture specification in line with system requirements as well as different field considerations for the different paths. Throughout the design phase, engineers will have three designs to analyze and choose from for the initial set-up. This initial setup will be critical to a successful design system requirements. The system optimization occurs within a specific operands tailored to our specific requirements and applications, providing quick understanding of design capabilities and downfalls, fast decision making to narrow down design approach, manufacturing and cost. Areas to cover will include: in-depth system analysis depending on the application and system requirements for the application we are coupling efficiency into Fibre as well analyze and understood, optimizing our laser communication system. We are a startup enhancing the formation of early stages of a product development project.
OUR OBJECTIVES AND RISK ASSOCIATES:
- Create a well understood design that can handle launch space bound-optics simulation laser communication and space environments.
- Save time and cost by simulating design changes to account for image quality over the operating temperature range.
- Address any potential risk in the design process and emphasize the integrating our systems in the standard lab as well as addressing any risk factors that maybe present those can be seen within simulation.
- Any Design changes that can be done but are limited to this but they include changing the camera shim thickness between the optic and the detectors will undergo a formal approval, review and voted by representatives for Security impact analysis, THE C.A.B (CHANGE APPROVAL BOARD).
- Redesign the mechanical housing to meet specifications that provides powerful capabilities that speeds up time to results, improve simulation accuracy and expand interoperability.
- Design iteration in the design process to predict how optics will react to their mechanical housings.
PHYSICAL DEMANDS: This position requires the ability to communicate and exchange information, utilize equipment necessary to perform the job.
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.
INTERVIEW PROCESS:
- STAGE 1: COGNITIVE ABILITY TEST
- STAGE 2: COGNITIVE ASSESSMENT SCREENING: WITH A 30yrs+ EXPERIENCE PSYCHOLOGIST:
- STAGE 3: PRE-SCREENING (verification checks & DV security clearance)
- STAGE 4: INTERVIEW WITH THE: CEO, CTO & GC
QUALIFICATIONS AND KEY REQUIREMENTS:
- Master’s degree in Optical Engineering or a related field.
- 10yrs+ years of experience in optical system design and development.
- Photonics Technician Operator (PTO)/Optical Instrument Design certification is essential.
- Solid in-depth working experience in CAE,CAD.
- Certified Information Security Manager (CISM)
- Offensive Security Certified Professional (OSCP),
- Certified Authorization Professional (CAP)
- Certified Network Defender (CND)
- Information Systems Security Architecture Professional (ISSAP)
- Information assurance system architecture and engineer (IASAE)
- Its prerequisite to be certified in one of the listed DoD 8570 Certifications.