At CES 2026, Litheli is signaling a strategic shift that goes well beyond power tools. With the introduction of its Skope™ 800 AI-VISION Robotic Lawn Mower, the company is expanding into autonomous outdoor systems—an increasingly competitive category where intelligence, ease of use, and ecosystem thinking matter as much as hardware.
Rather than competing on raw cutting performance alone, Litheli is betting on accessibility. The Skope 800 eliminates two of the biggest adoption barriers in robotic lawn care: boundary wire installation and RTK base stations. By replacing them with a pure multi-camera AI vision system, the mower is designed to work immediately, with minimal setup and no lawn modification.
From a market perspective, this lowers friction for mainstream consumers who may be curious about robotic mowing but unwilling to invest time, money, or expertise into complex installations.
Vision-Based AI as a Differentiator
The Skope 800’s core innovation lies in how it navigates. Instead of following predefined routes, it autonomously maps the yard, understands boundaries, and adapts its mowing behavior in real time. This perception-driven approach allows the system to function in dynamic environments where conditions change constantly.
Litheli’s AI vision technology enables the mower to:
- Detect and avoid more than 200 types of obstacles, including children, pets, toys, and furniture
- Navigate multi-zone lawns while maintaining consistent coverage
- Clean edges and corners that typically require manual trimming
- Resume mowing from the exact breakpoint after charging or interruption
For families and property owners, these capabilities translate into trust. The mower does more than automate a task. It demonstrates situational awareness that makes unattended operation feel safer and more practical.
From an industry standpoint, this aligns robotic lawn care with broader trends in robotics and autonomous systems, where vision-based intelligence is replacing rule-based automation across sectors ranging from logistics to transportation.
Ecosystem Thinking and Long-Term Value
Beyond navigation, the Skope 800 is tightly integrated into Litheli’s IPS™ (Infinity Power Share) battery ecosystem. The same battery that powers the mower can be shared across Litheli’s broader lineup of tools—or even used as a portable power bank for charging personal electronics.
This ecosystem-driven approach creates long-term value by improving battery utilization, reducing redundant accessories, and encouraging repeat engagement across product categories. It also reinforces Litheli’s broader “home-to-world” energy strategy, where power solutions move fluidly between indoor, outdoor, and mobile use cases.
Rather than competing on raw cutting performance alone, Litheli is betting on accessibility. The Skope 800 eliminates two of the biggest adoption barriers in robotic lawn care: boundary wire installation and RTK base stations. By replacing them with a pure multi-camera AI vision system, the mower is designed to work immediately, with minimal setup and no lawn modification.
Environmentally, the fully electric design supports quieter operation and zero emissions, making robotic lawn care more compatible with residential neighborhoods and sustainability goals. For aging populations and users with physical limitations, the reduction in manual labor and exposure to heat or allergens adds another layer of appeal.
At CES 2026, Litheli is in actuality outlining a scalable vision for autonomous outdoor maintenance. If adoption follows the same trajectory as smart home devices, AI-powered lawn care may soon shift from early-adopter novelty to a standard feature of modern households. Litheli asserts AI‑driven lawn care will dominate future markets, offering precision, sustainability, and scalable services for homeowners and municipalities.
