Optical Engineering is the study of using optical systems to capture, manipulate and detect certain physical properties, usually from images / videos. The Design Engineer working within this field will design and build optical systems with the purpose of measuring particular signatures from potential clients. These engineers will apply their knowledge of optics to develop real world solutions that can fully utilize microscope imaging technologies, provide visual feedback in various industries (nuclear, security, biomedical and environmental) and combine technology-driven physics with specialized imaging techniques to deliver ultra-precise technical results.
Here's some projects that our expert Design Engineer made real:
- Developing mathematical models for calculating optical properties of certain physical systems
- Constructing antenna array systems for analyzing electro-magnetic processes
- Producing light weight, 70x binocular convex lens systems for drones
- Implementing AI algorithms to strengthen hybrid wireless networks
- Performing wavelength assignments and graph coloring to optimize routing methods
- Analyzing plant nitrogen levels through image analytics techniques
- Drawing equations with Matlab scripting language
Our Design Engineer has a thorough knowledge of the entire range of the Optical Engineering field, allowing them to liaise directly with clients in order to translate their technological advancement needs into quality results. By working with our Design Engineer through Freelancer.com, you’re sure to receive an aesthetic and technically functional optical tool which can fully achieve your desired output performance and process accuracy.
We invite you to post your own project and hire one of our qualified Design Engineers from Freelancer.com today - our experts are well-experienced when it comes to making Optical Engineering projects a reality!Baseret på 220 bedømmelser, giver vores klienter os Design Engineers 4.91 ud af 5 stjerner.
Ansæt Design Engineers
We are looking to develop a state-of-the-art Quality Control (QC) device designed to inspect optical lenses for various defects and features. The device's primary function is to detect imperfections like scratches, dots, bubbles, and waves in lenses. It should also evaluate lenses for age-related yellowing, blue light filter effectiveness, and UV protection percentages. Key Features to Develop: 1. High-resolution imaging system for capturing detailed images of lenses. 2. UV and Blue light sources integrated with sensors to measure light penetration and calculate protection percentages. 3. Backlit panel system for detecting internal defects by shining light through the lens. 4. Colorimetry system to assess lens discoloration (yellowing) with age. 5. User-friendly software interface to...
Challenge Overview and Objective Innovative solutions are urgently needed to detect, characterize, track, or remediate small debris to ensure the safety and sustainability of space operations. YOU NEED TO FILL OUT REGISTRATION FORM AND BE REGISTERED ON THE FREELANCER.COM PLATFORM BEFORE SUBMITTING THE SOLUTION This competition invites creative minds from around the world to contribute groundbreaking concepts that address the critical issue of small debris in Earth's low-earth orbit (LEO) environment. Low-Earth orbit (often known as LEO) encompasses Earth-centered orbits with an altitude of 2,000 km or less. Low-Earth orbit is considered the area in Earth orbit near enough to Earth for convenient transportation, communication, observation and resupply. This is the area where the Int...