```html
Scion specialises in research, science and technology development for the forestry industry, wood products and wood-derived materials. We lead new technology development for renewables, bioproducts and energy and the establishment of a broader-based circular bioeconomy.
Scion hosts a number of summer students, each with differing specialities, from tertiary institutes across New Zealand at both our Rotorua and Christchurch Campus. The programme involves a student completing a 12-week, full-time, research project under the direction of Scion supervisors (allowing time for holidays over the Christmas and New Year). Students are able to gain hands-on, paid, work experience in the field of which they are studying, where they get to work shoulder to shoulder with Scion's internationally recognised staff.
We are seeking a motivated student to work on the evaluation of QR code readability for packaging applications.
The primary objective of the work/project: The primary objective of the project is to understand the feasibility of QR codes for packaging applications by evaluating their readability on different types of packaging materials and products.
Research Abstract: Recently, scanning QR codes attached to products using mobile phones has become a convenient method for traceability and information sharing. However, the readability of QR codes on new material (e.g. moulded fibre), curved products (e.g. apples) and when exposed to everyday conditions (e.g. bending) has not been fully characterised. This project will focus on testing the impact of various parameters (e.g. size, distance, and roughness) on the readability of QR codes attached to different products and packaging materials. The readability of QR codes under real conditions will also be fully tested. The student will also support the integration of a QR reading system for showcasing the application of QR code technology to reduce packaging waste.
What you will do: You will work on developing a QR code readability test protocol and testing printed QR codes on various surfaces under real conditions. By the end of the project, you will prepare a technical report. The results will be shared with partners for further development. Qualifications, skills and attributes needed: Ideally, you will be undertaking tertiary education in a related field to Mechatronics or Material Engineering and have:
Good understanding of material science and basic electronics design Aptitude for hands-on assembly Problem-solving and troubleshooting skills Experience designing mechanical arrangements Able to work independently If this role interests you, apply today!
Application Close Date: 6 September 2024
```#J-18808-Ljbffr