HITS 3
The HITS project develops, implements and scales solutions for sustainable, secure and seamless deliveries, uniting stakeholders across the electrified long-distance transport value chain to enable efficient deployment and broad industry adoption.
HITS 3 - Sustainable & Integrated Urban Transport Systems, Step 3
Project description
Sustainable & Integrated Urban Transport Systems Step 3 (HITS 3) builds on the challenges and needs addressed by previous HITS projects, such as reducing urban congestion and enabling more efficient and safer deliveries for both society and business stakeholders. The main objective is to further develop, implement, and scale up the solutions previously tested:
- Sustainable Distribution: Further develop and evaluate sustainable freight transport in cities through consolidation, which increases efficiency and reduces the number of vehicle movements required to transport the same or larger volumes.
- Secure Deliveries: Improve safety during loading and unloading processes, including off-peak hours, to enhance transport efficiency and improve working conditions.
- Seamless Deliveries: Create flexible and sustainable freight transport through interoperable systems and efficient automated processes for loading, unloading, and delivery, including for unmanned deliveries.
- Scaling and Dissemination: Evaluate opportunities to implement and disseminate sustainable solutions to other geographical areas.
HITS 3 aligns closely with FFI’s (Strategic Vehicle research and Innovation) roadmaps to promote fossil-free, efficient, safe, and equitable transport solutions that are also anchored with users and society. The project takes a broad systems approach in line with FFI Accelerate, focusing on aspects such as behaviour, business models, technology, processes and infrastructure, as well as policy and regulations. The main users of the demonstrated solutions include transport operators, other logistics actors, property owners, cities, and municipalities.
Implementation
The project employs an agile methodology with the ambition to demonstrate and evaluate multiple logistics solutions in real-world environments.
