| WiFi Dual Mode (2.4G WiFi + BLE) | Integrates 2.4G WiFi and BLE dual mode; BLE is responsible for device discovery and one-click network configuration, WiFi handles data transmission between lights and the LAN/cloud platform. | Convenient network configuration, stable connection; supports local + remote dual control, adaptable for smart ecosystem integration. | Smart light strips, smart luminaires, home lighting, lighting systems requiring remote control and cloud platform access. |
| Bluetooth Mesh | Distributed mesh topology based on BLE Mesh protocol, supports multi-hop relay and controlled flooding mechanisms, a single network can connect hundreds of light strip nodes. | Low power consumption, large node capacity, self-organizing topology; suitable for group and scene control of high-density lighting nodes. | Commercial lighting, building lighting, hotels, engineering-grade lighting systems. |
| Bluetooth (BLE) | Low-power, short-range wireless communication, point-to-point connection. | No network or gateway required, simple system, low cost, low power consumption; suitable for small-scale, localized independent lighting control projects. | Home single-light/group control, small venues. |
| WiFi Mesh | Lightweight Mesh architecture based on WiFi protocol; supports automatic discovery and self-organizing of smart lighting nodes, employs dynamic routing optimization technology, with low data transmission latency (adapted for millisecond-level light effect synchronization needs). | 1. Significantly different from traditional WiFi: does not rely on a central node, nodes can interconnect with adjacent nodes and forward data, offering wider coverage, support for hundreds of access nodes, less prone to overload; 2. Ultra-low millisecond-level latency, high precision for lighting effect synchronization; 3. Adapts to scenarios with multiple WiFi devices working collaboratively, excellent stability. | Whole-home smart lighting systems, dynamic ambient lighting effect projects, lighting scenes requiring high real-time synchronization, scenarios for centralized control of multiple WiFi smart lighting devices. |
| LoRa | Low Power Wide Area Network (LPWAN) technology based on spread spectrum communication; strong non-line-of-sight transmission capability, excellent anti-interference, supports kilometer-level long-distance data transmission. | Extremely long coverage distance (kilometer-level), supports long-distance synchronization technology, supports long-distance, large-scale group control. | Campus lighting, road lighting, outdoor landscape lighting, long-distance lighting synchronization control. |
