Freelance Animator
Twine
N/A
Job Details
Contract
Full Job Description
About Twine
We're a thriving ecosystem of top-tier freelancers from around the world. Trusted by Fortune 500 companies and Silicon Valley startups, Twine is the go-to platform for mission-critical projects. With over half a million registered freelancers and a growing roster of 35,000+ companies, we've become the comprehensive solution for freelancing.
Our Mission
At Twine, we recognise that companies require a flexible approach to hiring expert freelancers for their most critical projects. Traditional freelance platforms often fall short when it comes to scalability and diversity. That's where we shine. Twine operates as a thriving global freelance network, with diverse experts across various fields, including marketing, engineering, and AI. Our core mission is to empower creators, whether they're businesses or individual freelancers, to thrive in their creative endeavours.
About the Role
Our client are seeking a talented mid-level animator to create an engaging music video featuring a unique concept. This paid project requires approximately one week of dedicated work, with a delivery deadline at the end of the year. The successful candidate will bring creativity and technical skill to bring our vision to life, with potential for future collaborations based on performance.
Responsibilities:
- Create dynamic and stylized animations for a music video project
- Adapt and implement a visual style inspired by Katsuji Morishita's work
- Animate a transformation sequence involving a public figure and sci-fi elements
- Develop engaging action sequences featuring the main character
Requirements
- Proven experience as a mid-level animator, preferably with music video projects
- Strong portfolio demonstrating ability to create dynamic and engaging animations
- Familiarity with or ability to adapt to Katsuji Morishita's animation style
- Proficiency in relevant animation software and techniques
- Ability to animate human figures, sci-fi elements, and action sequences