What are the main features of Apollo?
Apollo's main features include its modular design allowing for mounting on any mobility platform (stationary or mobile), LEDs used for communication (they are located on the head, mouth, and chest), and advanced force control architecture that ensures safe movements around humans. It also comes with a software suite that permits point-and-click control for deploying multiple solutions into warehouse and manufacturing operations.
What are the practical applications of Apollo in the industrial sector?
In the industrial sector, Apollo can play crucial roles in warehouses and manufacturing plants. Its functionalities in these settings include trailer unloading, case picking, palletization, machine tending, and workcell delivery. Over time, its capabilities will extend to other sectors such as construction, and electronics production.
Can Apollo be mobile or stationary?
Yes, thanks to its modular design, Apollo can be either mobile or stationary. It can mount on any mobility platform, which provides it with versatility in various operation environments.
How does the modular design of Apollo benefit users?
The modular design of Apollo brings several benefits to users. It allows Apollo to be mounted on any mobility platform, thus offering flexibility in different operational scenarios. Whether operations require the robot to be stationary or mobile, Apollo can adapt to the requirements, thus enhancing its usability.
What is the significance of the LED lights on Apollo?
The LED lights on Apollo play a significant role in facilitating communication. They're positioned in its head, chest, and mouth, and work in unison to communicate its status, adding to the element of interactive functionality.
What safety measures does Apollo have when moving around humans?
Apollo is equipped with advanced force control architecture that ensures safe movements around humans. If a moving object is detected, the robot immediately pauses any movement, thereby minimizing any potential collision or safety hazard.
What capabilities does Apollo's software suite provide?
Apollo's software suite provides point-and-click control, allowing users to deploy and fully integrate a wide range of solutions into warehouse and manufacturing operations. It enhances automation and ease of operations in these settings.
How does Apollo navigate and operate in human spaces?
Apollo navigates and operates in human spaces through its human-like physical attributes. It is designed to navigate human spaces and use human tools comfortably, thus making human interaction natural, and allowing it to perform tasks that may be difficult or impossible for other types of robots.
How does Apollo add value in areas like elder care and home delivery?
In areas like elder care and home delivery, Apollo can carry payloads up to 55 lbs and operate autonomously for 4 hours per battery pack. This makes it suitable for tasks like delivering goods at home, or tending to basic needs of the elderly, thus adding value in these settings.
How does Apollo interact with humans?
Apollo is designed for friendly interactions with humans. Its humanoid physique enables it to navigate human spaces and use our tools. The LED lights placed in its head, mouth, and chest assist in communication, making human interaction natural.
What were some of the previous robots built by Apptronik before developing Apollo?
Before developing Apollo, Apptronik built over 10 previous robots. One of the noteworthy robots among them is NASA's Valkyrie robot.
What types of tasks can Apollo perform in a warehouse or manufacturing plant?
In a warehouse or manufacturing plant, Apollo can perform tasks like trailer unloading, case picking, palletization, machine tending, and workcell delivery. Its software suite further allows integration of a wide range of solutions into these operations.
How does Apollo's physique compare to that of a human?
Apollo has a body shape and size similar to that of an average human. Its height is 5'8" and it weighs 160 lbs. This humanoid physique enables it to navigate human spaces comfortably and use human tools effectively.
What sectors can benefit from the functionality of Apollo?
Sectors such as 3PL, retail, manufacturing, construction, oil and gas, electronics production, home delivery and elder care can benefit from the functionality of Apollo. It is designed to extend its functionality into these sectors and countless more areas.
How long can Apollo operate before requiring a battery change?
Apollo can operate for 4 hours before requiring a battery change. The robot uses hot swappable battery packs, which allows it to continue working with a simple battery change rather than requiring a plug-in charge during which it isn't operational.
How much weight can Apollo handle?
Apollo can handle payloads up to 55 lbs. This high payload capacity makes it suitable for numerous industrial applications, such as loading and unloading goods, machine tending, and more.
Can Apollo operate safely around moving objects?
Yes, Apollo can operate safely around moving objects. Its advanced force control architecture enables it to immediately pause any movement when moving objects are detected, thus ensuring a safe working environment.
What sets Apollo apart from other types of robots?
Apollo stands out from other types of robots due to its human-like physical attributes that allow it to navigate human spaces and use human tools comfortably. It also offers features like advanced force control architecture, point-and-click control software suite, and modular design for tailored mobility.
How can Apollo's advanced force control architecture enhance safety in a work environment?
Apollo's advanced force control architecture can enhance safety in a work environment by ensuring safe movement around humans. When it detects a moving object, it immediately pauses all movements, hence minimising potential collisions and ensuring the safety of humans in its operational vicinity.
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