Locomotion Powerpoint Presentation Slides
Grab our insightfully designed template on Locomotion. It briefly explains the robotic exoskeleton provider company, its unique values and solutions, its importance, and its market share. Our Exoskeleton Suits deck covers various robotic exoskeletons, like a powered exoskeleton, passive exoskeleton, pseudo-passive exoskeleton, etc. It also includes wearable exoskeleton robots that are rigid and soft exo-suits. In addition, our Powered Exoskeletons PPT contain the working, controlling, and materials used in these. It comprises leading approaches and technologies for advancing exoskeletons, like testbeds, embedding competent mechanics into passive exoskeletons, exoskeleton controllers using AI, and online optimization. Further, our Locomotion module includes the applications of robotic exoskeletons in different sectors, including the military, construction, production industry, and medical departments. Lastly, it caters to the cost of developing a robotic exoskeleton suit, a timeline, and a roadmap. Download our 100 percent editable and customizable template, also compatible with Google Slides.
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Deliver this complete deck to your team members and other collaborators. Encompassed with stylized slides presenting various concepts, this Locomotion Powerpoint Presentation Slides is the best tool you can utilize. Personalize its content and graphics to make it unique and thought-provoking. All the sixty two slides are editable and modifiable, so feel free to adjust them to your business setting. The font, color, and other components also come in an editable format making this PPT design the best choice for your next presentation. So, download now.
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Content of this Powerpoint Presentation
Slide 1: This slide introduces Locomotion (IT). Commence by stating Your Company Name.
Slide 2: This slide depicts the Agenda of the presentation.
Slide 3: This slide incorporates the Table of contents.
Slide 4: This slide continues the Table of contents.
Slide 5: This slide reveals the Title for the Topics to be covered further.
Slide 6: This slide represents the overview of the robotic exoskeleton manufacturing company.
Slide 7: This slide depicts our company's unique values and solutions.
Slide 8: This slide describes the robotic exoskeleton representative team of the manufacturing company.
Slide 9: This slide highlights the Heading for the Components to be discussed next.
Slide 10: This slide talks about the importance of robotic exoskeleton suits by defining the achievements of the technology.
Slide 11: This slide represents the global market size of robotic exoskeletons from 2015 to 2025.
Slide 12: This slide talks about the growing robotic exoskeleton market from 2021 to 2023.
Slide 13: This slide presents the Title for the Components to be covered further.
Slide 14: This slide reveals the overview of robotic exoskeleton that are wearable robotics systems.
Slide 15: This slide depicts the generic architecture of a robotic exoskeleton.
Slide 16: This slide showcases the Timeline for robotic exoskeleton growth.
Slide 17: This slide elucidates the Advantages of robotic exoskeleton suits.
Slide 18: This slide discusses the disadvantages of robotic exoskeleton suits.
Slide 19: This slide portrays the Heading for the Topics to be discussed next.
Slide 20: This slide states the powered exoskeleton type of robotic exoskeleton and the hardware components used in it.
Slide 21: This slide describes the passive type of robotic exoskeletons that boost a user’s mobility with springs or other sources of motor force.
Slide 22: This slide talks about Pseudo-passive exoskeleton and hybrid-exoskeleton.
Slide 23: This slide deals with Artificial intelligence and smart sensors robotic exoskeleton.
Slide 24: This slide mentions the Title for the Ideas to be covered further.
Slide 25: This slide represents the overview of exoskeleton wearable robots and their types.
Slide 26: This slide indicates Soft exo-suit wearable robot overview and types.
Slide 27: This slide showcases the Heading for the Ideas to be discussed next.
Slide 28: This slide represents the working of a robotic exoskeleton with the human body.
Slide 29: This slide reveals the ways of controlling robotic exoskeleton suits.
Slide 30: This slide depicts the Title for the Topics to be covered further.
Slide 31: This slide depicts the robotic exoskeleton testbeds for systematic and high throughout research.
Slide 32: This slide deals with Embedding smart mechanics into passive exoskeleton.
Slide 33: This slide describes the exoskeleton controllers using artificial intelligence and online optimization.
Slide 34: This slide showcases the Actuation technologies used in robotic exoskeleton suits.
Slide 35: This slide talks about the sensors used in robotic exoskeleton technology.
Slide 36: This slide incorporates the Heading for the Contents to be covered in the upcoming template.
Slide 37: This slide depicts the application of robotic exoskeleton suits in the military services.
Slide 38: This slide talks about the application of a robotic exoskeleton to reduce injuries in the construction industry.
Slide 39: This slide mentions about the Robotic exoskeleton in production industry.
Slide 40: This slide represents the application of robotic exoskeletons in the healthcare department.
Slide 41: This slide outlines the body parts actuated or powered with the skeleton suits.
Slide 42: This slide displays the Title for the Ideas to be discussed next.
Slide 43: This slide elucidates the Robotic exoskeleton and levels of spinal cord injury.
Slide 44: This slide portrays the Robotic exoskeleton and body weight or composition.
Slide 45: This slide represents the relationship between robotic exoskeleton and the physical activity of SCI patients.
Slide 46: This slide describes the robotic exoskeleton and range of motion for the hip, knee, and ankles.
Slide 47: This slide reveals the Robotic exoskeleton and bone health.
Slide 48: This slide provides information about the Robotic exoskeleton and pressure injuries.
Slide 49: This slide displays the Heading for the Ideas to be covered further.
Slide 50: This slide represents the cost of developing a robotic exoskeleton suit.
Slide 51: This slide shows the Title for the Contents to be discussed next.
Slide 52: This slide describes the timeline for the robotic exoskeleton suit project.
Slide 53: This slide outlines the Heading for the Topics to be covered further.
Slide 54: This slide represents the roadmap for developing the robotic exoskeleton suit.
Slide 55: This is the Icons slide containing all the Icons used in the plan.
Slide 56: This slide is used for showcasing the Additional information.
Slide 57: This is the Puzzle slide with related imagery.
Slide 58: This is Our goal slide. State your organizational goals here.
Slide 59: This is the Venn Diagram slide.
Slide 60: This is the Magnifying glass slide.
Slide 61: This slide elucidates information related to the Financial topic.
Slide 62: This is the Thank you slide for acknowledgement.
Locomotion Powerpoint Presentation Slides with all 67 slides:
Use our Locomotion Powerpoint Presentation Slides to effectively help you save your valuable time. They are readymade to fit into any presentation structure.
FAQs
A robotic exoskeleton is a wearable device that enhances the physical abilities of its user by providing external support and power. It is typically used in medical rehabilitation and to assist with activities of daily living.
A robotic exoskeleton works by providing external support and power to the user's limbs. It typically consists of a rigid frame that is worn over the user's body, with motors and sensors that control the movement of the limbs. The user's movements are detected by sensors, and the exoskeleton responds by providing the necessary support and power.
Robotic exoskeletons have potential applications in a wide range of fields, including medical rehabilitation, military, industrial, and entertainment. They can help individuals with mobility impairments to regain independence and perform activities of daily living, and can also enhance the physical abilities of able-bodied individuals.
The benefits of using a robotic exoskeleton include improved mobility and independence for individuals with mobility impairments, reduced risk of injury for workers performing physically demanding tasks, and enhanced physical abilities for athletes and soldiers.
Current robotic exoskeleton technology has limitations in terms of weight, cost, and complexity. Exoskeletons can be heavy and cumbersome, limiting their use for extended periods of time. They can also be expensive, making them inaccessible to many individuals who could benefit from their use. Finally, current technology requires significant computational power, making the design and control of exoskeletons complex and challenging.
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