Tianli
Tianli
Tianli International Trade Group is an established industry pioneer and certified supply chain solutions provider, integrating two core sectors: high-end automotive trade ecosystems and defense-oriented low-altitude unmanned aerial systems (UAS). Guided by E-E-A-T principles, we represent a trusted partner in providing both commercial green transport infrastructure and advanced defense mitigation platforms.
Modern low-altitude security demands more than standalone drone defenses; it requires multi-agent coordination. Our Elite Swarm UAV architecture utilizes decentralized task allocation, dynamic routing algorithms, and localized peer-to-peer mesh networks. These systems empower swarms to perform complex reconnaissance, synchronized defense jamming, and industrial monitoring tasks in GPS-denied environments.
By blending our advanced automotive engineering logistics with UAS research, we guarantee robust deployment systems. Our defense networks cover detection, active neutralization, and command-and-control software integration.
Adapting multi-agent unmanned aerial systems to specific regions requires a deep understanding of local laws, geographical challenges, and specific industry needs. Below is our localization matrix.
Tianli swarm systems interface with municipal "Smart City" IoT frameworks. Utilizing localization protocols, the swarm automatically patrols municipal infrastructure, tracks traffic anomalies, and monitors air quality. Dynamic geofencing prevents them from drifting into unauthorized flight zones.
Our swarm units monitor power grids, nuclear facilities, and petrochemical pipelines. Equipped with thermal sensors and autonomous target tracking, the units coordinate coverage to eliminate blind spots and counter intrusion threats in real time.
During natural disasters, communication networks often collapse. Our UAV swarms quickly establish an ad-hoc airborne mesh network, restoring localized data links. This allows emergency teams to coordinate search-and-rescue efforts and deliver medical supplies using high-payload drone links.
As the low-altitude economy expands, the technological requirements for swarm UAV networks are shifting from centralized remote command to decentralized edge-intelligence systems. Tianli is driving this shift through four core R&D phases:
Traditional pre-programmed drone patterns struggle in complex, changing environments. Our engineers are building MARL models that run directly on high-performance edge chips. This enables individual drone units to continuously learn from their environment, adjust their paths to avoid obstacles, and coordinate task allocation with nearby units without relying on central server feedback.
Electronic warfare and signal interference are primary threats to swarm deployments. Tianli's proprietary technical roadmap integrates visual inertial odometry (VIO), laser-based SLAM, and ultra-wideband (UWB) ranging. This allows the swarm to maintain dense formations and complete missions even when GPS signals are completely blocked or jammed.
The future of low-altitude robotics lies in heterogeneous swarm platforms. By combining fixed-wing aerial systems (which offer extended range) with multi-rotor kinetic units and ground-based autonomous vehicles (UGVs), we create unified operational networks. These integrated systems are managed through our central AI software platform, facilitating automated dispatch, recharging, and sensor data aggregation.
Operating from Shandong and partnering with China's leading industrial centers, Tianli utilizes a robust manufacturing network. This ecosystem allows us to rapidly prototype, test, and ship high-end tech hardware worldwide with minimal delay.
We work directly with major raw material producers, lithium battery fabricators, and advanced semiconductor assembly plants. By bypassing intermediaries, we secure priority access to key components during supply shortages, ensuring consistent production timelines for our clients.
Every UAS unit undergoes strict testing, including climate chamber exposure, electromagnetic compatibility assessments, vibration tests, and real-world multi-drone coordination trials. This comprehensive process guarantees high reliability and performance in the field.
Leveraging our dual expertise in automotive export and security technology, we offer global partners one-stop multi-brand sourcing. By coordinating logistics, customs clearance, and compliance certifications through a single entity, we reduce administrative costs and speed up delivery times. This unified approach lowers supply chain risks, allowing our distributors to maintain competitive margins and focus on scaling their local operations.
Beyond our advanced UAS platforms, Tianli is a key provider of new energy vehicles, pre-owned cars, and zero-emission delivery solutions. This diverse portfolio drives our research into green energy and automated distribution systems.
Tianli holds export qualifications certified by the Ministry of Commerce of China. With agency rights for several major electric vehicle brands, we export sedans, SUVs, and commercial vehicles. Our robust inventory allows us to ship at least 200 electric vehicles per month, serving global dealers and rental fleets.
Additionally, we manufacture and export specialized electric three-wheel cargo vehicles designed for last-mile urban logistics, providing a cost-effective, zero-emission transportation option.
We source, inspect, and export top-tier electric vehicles, providing a cost-effective alternative to new purchases for cost-conscious fleets.
Our experienced team handles procurement, quality inspections, customs clearance, and international shipping to ensure smooth, hassle-free delivery.
We support our global clients with comprehensive technical assistance, spare parts supply, and maintenance training programs.
Find answers to common questions about technical specifications, regulatory compliance, and deployment strategies for swarm drone networks.
Our swarm platforms utilize visual-inertial odometry (VIO), high-accuracy local ultra-wideband (UWB) ranging, and decentralized consensus algorithms. When GPS is unavailable, the drones establish local coordinate networks based on sensor data, allowing them to fly in close formation, avoid obstacles, and coordinate tasks without external positioning data.
Our multi-rotor and fixed-wing platforms support modular payloads. Depending on the mission, they can carry electro-optical/infrared (EO/IR) gimbals, environmental sensors, multispectral cameras, lightweight delivery systems, or compact electronic jamming modules.
The network uses dynamic frequency-hopping technology paired with peer-to-peer mesh routing. If a frequency band is jammed or an individual drone loses connection, the rest of the swarm automatically reroutes communication through neighboring nodes, maintaining operational integrity.
We build compliance features directly into our software, including real-time Remote ID systems, localized geofencing, and automated fail-safe procedures. We also assist our global partners in obtaining the necessary operational approvals from local civil aviation authorities.
Standard custom orders typically ship within 30 to 45 days, depending on payload requirements. Large-scale deployments are managed in phases to allow for thorough testing, calibration, and integration with the client's existing control systems.
Get in touch to request technical specifications, customized drone swarm configurations, or a competitive quote. Our international engineering and logistics support teams respond to inquiries within 24 hours.