The "Infrared-Based Automatic Laboratory Lighting System" represents a novel way to improve energy efficiency and stoner comfort in lab environments. Conventional laboratory lighting systems often warrant rigidity and efficacy, leading to unnecessary energy usage and inadequate lighting. In order to overcome these obstacles, this design incorporates a smart lighting control system that uses infrared (IR) detectors to identify the presence of mortals inside the laboratory. The primary operation of the system entails placing IR detectors in strategic locations across the lab space. These detectors monitor individuals continuously and relay the data they find to a central control unit that is based on a microcontroller platform. The control unit initiates the activation or adaptation of lighting institutions in the vicinity of detected movement upon detection of a mortal presence. This guarantees that the lighting is optimized for continuous conditioning, providing suitable lighting while reducing energy waste during periods of unoccupied occupancy. Crucial features of the proposed system include real-time responsiveness and rigidity to varying residency patterns. The integration of IR detectors with the microcontroller-grounded control unit enables a nippy and accurate discovery of mortal presence, allowing the system to acclimate lighting situations instantly as individuals enter or leave the laboratory space. Additionally, the system can be configured to generate lighting configurations based on particular circumstances, including ambient lighting for common spaces or task lighting for lab workstations. Apart from enhancing energy efficiency, the method places emphasis on the safety and experience of stoners. The technology lowers the risk of accidents or crimes related to dim illumination by providing appropriate and safe lighting conditions that are tailored to the functional needs of the laboratory. Similarly, the automation of lighting control eliminates the need for handcrafted solutions, allowing laboratory workers to focus on research or experimentation. All things considered, the "Infrared-Based Automatic Laboratory Lighting System" provides stoner-friendly and environmentally friendly outcomes to improve lighting operations in laboratory settings. By promoting energy conservation, perfecting the stoner experience, and ensuring safety, this system contributes to the advancement of effective and sustainable practices in laboratory operations. Keywords: LED (light emitting diode), microcontroller, Internet of Things, sensors, relay mechanism, and LCD (liquid crystal display).