英语
中文简体Your company’s executive team recently learned that there is a new way to clean facility floors. Until recently, manual machines could not support and have become paperweights in the janitor's closet. Floors need regular, consistent and frequent cleaning-autonomous solutions are the answer.
Your task is to find the best automatic floor scrubbing solution available on the market.
After a few quick searches, you will be overwhelmed by various options and information. Different machines, different planning methods, different levels of reporting and support. Where to start?
1. Is it an integrated or an autonomous solution for the interface?
When considering these options, you want to find an autonomous floor care solution built from the ground up as a robot. The floor scrubbing robot built from the ground up is optimized for autonomous cleaning and disinfection. You will not find cup holders, steering wheels, seats or standing places on Neo 2-they are not only unnecessary, but also make the design of the robot less than ideal and reduce the efficiency and return on investment of your team.
Beware of the "bolted" modules that have been modified to the manual cleaner to make them look like robots. These manual machines are equipped with cameras and sensors and can drive themselves. Using an interface (or bolt-on sensor module) machine, you will end up with a product created and patched by the two companies.
2. Can it clean in a dynamic and constantly changing environment (with moving people and objects)?
This is a very important question when evaluating autonomous solutions. In the field of robotics, we call it the planning method.
When considering these options, you want to find an autonomous floor care solution built from the ground up as a robot. The floor scrubbing robot built from the ground up is optimized for autonomous cleaning and disinfection. You will not find cup holders, steering wheels, seats or standing places on Neo 2-they are not only unnecessary, but also make the design of the robot less than ideal and reduce the efficiency and return on investment of your team.
Beware of the "bolted" modules that have been modified to the manual cleaner to make them look like robots. These manual machines are equipped with cameras and sensors and can drive themselves. Using an interface (or bolt-on sensor module) machine, you will end up with a product created and patched by the two companies.
2. Can it clean in a dynamic and constantly changing environment (with moving people and objects)?
This is a very important question when evaluating autonomous solutions. In the field of robotics, we call it the planning method.
The first thing we want to emphasize is that the company is using two very different planning methods. The first is the teaching and repetition method. The second is dynamic planning and real-time obstacle avoidance. If you want to achieve a high level of performance, it is important to understand these differences.
