Robots and the Future of Robotic bartenders

Overview: Robots and robotic bartenders are increasingly becoming part of our future. The rise of this technology is backed by different statistics, such as the projected growth of the service robot market, the decreased interpersonal service need, and the increasing demand for precision and efficiency. This guide elaborates on these statistics and discusses the future of robotic bartenders. The guide also introduces 3Laws Robotics, a company delivering innovative software aiming to enhance robotic safety and certification procedures.

Robotic Growth: The robotic industry is experiencing phenomenal growth and adoption across various sectors. According to a report from Tractica, the worldwide shipments of service robots are expected to cross 264 million units by 2021, highlighting a promising future. The rise in robotic technology encompasses several areas, including automated bartenders. If this trend continues, it is estimated that robotic bartenders could fill a significant service gap in the hospitality industry.

Decreased Interpersonal Service Need: Customer preferences are changing. Today, over 60% of customers prefer self-service options for simple transactions, creating an extensive market for service robots. Robotic bartenders specifically meet this need by providing efficient, precise services without requiring human interaction. With these robots, customers can enjoy a personalized experience and get their refreshments faster than from a human bartender. This adaptation of technology reduces the interpersonal service need in not just bartending but other hospitality sectors as well.

Demand for Precision and Efficiency: In a competitive world, precision and efficiency take center stage. With the implementation of robots, these goals are more straightforward to achieve. According to the Bartender Business Statistics, robotic bartenders can precisely measure ingredients down to the millimeter and create the cocktail in less than 30 seconds. This impressive speed and accuracy can streamline the service and meet the increasing demands of the customers.

Key Takeaways:

• Robotic growth has a promising future with worldwide shipments projected to cross 264 million units by 2021.
• More than 60% of customers now prefer self-service options, reducing the need for interpersonal services.
• Robotic bartenders enhance precision and efficiency, able to create cocktails in less than 30 seconds with millimeter-accurate measurements.

3Laws Robotics is at the forefront of this growing trend, developing innovative software solutions that enhance safety and reliability in robotics. The company is focused on tackling one of the most significant challenges for robotics companies - certification. 3Laws' product, 3Laws Supervisor, simplifies this process by providing robust safety features and evidence of system robustness, thus easing the certification path.

The software is built upon Control Barrier Functions (CBFs), a revolutionary technology developed at Caltech, offering mathematically provable safety. 3Laws technology finds application across different industries, fulfilling various needs. Whether it is warehouse automation, where 3Laws helped an autonomous forklift customer achieve a 40% efficiency gain, or human-robot interaction, where it enables safe operation of robots near humans, 3Laws is paving the way to a safer robotic future.

3Laws also enhances operational efficiency by minimizing downtime caused by unnecessary e-stops or collisions. With real-time guardrails for autonomy stacks, 3Laws empowers robots to operate closer to their peak capabilities while ensuring safety. The software is versatile and compatible with a vast array of platforms, including mobile robots, cars, drones, and manipulators, and can even work with popular robotics middleware like ROS and ROS2.

In a nutshell, 3Laws Robotics goes beyond traditional safety methods to offer a proactive, dynamic, predictive safety approach. It aims to unlock the full potential of robotics, offering technology that can be certified for safety (ISO 3691-4 and ISO 26262), pushing the boundaries of the robotic revolution.