The "G+" version often features enhanced tools to create, share, and race on user-generated maps.
[Your Name], Ph.D. – Sports Surface Engineering Consultant Date: 14 April 2026
| R&D focus | Expected Benefits | Timeline | |-----------|-------------------|----------| | | Further increase tensile strength while reducing polymer content → lower carbon footprint. | 2027–2029 (pilot trials) | | Smart‑sensor embedded layers | Real‑time monitoring of temperature, moisture, and strain; predictive maintenance. | 2028 (beta deployment) | | Bio‑based polymer binders | Replace petro‑based epoxy with lignin‑derived resin, achieving ≥ 40 % renewable content. | 2030 (commercial launch) | | Modular “quick‑set” un‑blocked kits | Reduce on‑site labor for smaller venues (e.g., community training arenas). | 2026–2027 (prototype) |
The "G+" version often features enhanced tools to create, share, and race on user-generated maps.
[Your Name], Ph.D. – Sports Surface Engineering Consultant Date: 14 April 2026
| R&D focus | Expected Benefits | Timeline | |-----------|-------------------|----------| | | Further increase tensile strength while reducing polymer content → lower carbon footprint. | 2027–2029 (pilot trials) | | Smart‑sensor embedded layers | Real‑time monitoring of temperature, moisture, and strain; predictive maintenance. | 2028 (beta deployment) | | Bio‑based polymer binders | Replace petro‑based epoxy with lignin‑derived resin, achieving ≥ 40 % renewable content. | 2030 (commercial launch) | | Modular “quick‑set” un‑blocked kits | Reduce on‑site labor for smaller venues (e.g., community training arenas). | 2026–2027 (prototype) |