Spidey Sense: Difference between revisions
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| style="border: 1px solid black; padding: 5px;" rowspan="4" | Assembly of product (Gialesi, Lotte, Noor, Mark) | | style="border: 1px solid black; padding: 5px;" rowspan="4" | Assembly of product (Gialesi, Lotte, Noor, Mark) | ||
| style="border: 1px solid black; padding: 5px;" colspan="2" | Test sensors (Gialesi) | | style="border: 1px solid black; padding: 5px;" colspan="2" | Test sensors (Gialesi) | ||
| style="border: 1px solid black; padding: 5px;" colspan="2" rowspan="4" | Write report ( | | style="border: 1px solid black; padding: 5px;" colspan="2" rowspan="4" | Write report (Everybody) | ||
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! style="border: 1px solid black; padding: 6px; background: #efefef;" | Week 4 | ! style="border: 1px solid black; padding: 6px; background: #efefef;" | Week 4 |
Revision as of 13:18, 10 February 2019
Back to PRE2018 3 Group8
Problem statement and objectives
Aid workers can not always estimate the critical situation good enough, because they do not have the proper equipment. Victims can be helped quicker if aid workers can operate better in small spaces.
Objectives:
The following objects are SMART objectives.
- The solution should localize the victims of a disaster area
- The solution should be ready for use
- The solution should be tiny/small
- The solution should be adaptable
- The solution should be strong (enough for mechanical loads)
- The solution should be autonomous
- The solution should be user-friendly
- The solution should be able to function in an unknown and dynamic environment
- The solution should be durable
Who are the users?
Primary users
Non profit organisations (like the Red Cross)
They can give workshops/education about the use of the robot.
Aid Workers
They actually use the robot in the field.
Secondary users
Volunteers
Victims
Tertiary users
Government
Hospitals
What do they require?
Non profit organisations
Aid Workers
- Working quicker , because the robot is ready for use
- Own safety
- More information/data about the situation in critical conditions
Volunteers
- Safety while trying to search for survivors/victims.
Victims
- Victims need the medical aid as fast as possible.
Government
- Lower (medical) costs
- Less casualties
Hospitals
- Quicker discharge of patients
USE Aspects
Users
Society
Enterprise
Approach, milestones and deliverables
Approach
Milestones
Deliverables
- Wiki (report)
- Final presentation
- A prototype
Planning
Week 1 | Literature study (Gialesi, Lotte, Mark Romy) | Problem statement (Lotte) | Define users and user needs (Romy) | Make planning (Noor) | Update Wiki (Romy) | |
---|---|---|---|---|---|---|
Week 2 | List of sensors and components (Gialesi, Noor) | Scenario/persona's (Lotte) | Make designs (Everybody) | Analyze USE aspects (Romy) | ||
Week 3 | Assembly of product (Gialesi, Lotte, Noor, Mark) | Test sensors (Gialesi) | Write report (Everybody) | |||
Week 4 | ||||||
Week 5 | ||||||
Week 6 | Test prototype (Noor) | |||||
Week 7 | Improve prototype (Gialesi, Lotte, Noor, Mark) | Evaluate Prototype (Mark) | Prepare presentation (Lotte) | |||
Week 8 | ||||||
Week 9 | Presentation | Hand in deliverables |
Who's doing what?
- Lotte Hollander: writing report + wiki, graphic design, prototyping
- Romy Lauwers: writing report + wiki, literature, photoshop
- Mark Wijnands: mechanics, control
- Noor Schroen: programming, electronics
- Gialesi Notkamp: programming, electronics
SotA
Spider Robot and Motion:
[1] This paper looks at certain safe points where the spider robot can place its feet and where not in a plane.
[2] This paper looks at certain points where the spider can and cannot place its feet.
[3] This paper looks at a spider robot that climbs autonomously in pipelines. Could be useful for the small spaces.
[4] This paper is about the capabilities of the spider and studies the foot force and torque distribution of the spider in different conditions and compares the leg configurations in order to minimize the torque effort.
[5] This paper discusses foot designs and fabrication for use with a spider-inspired climbing robot.
[6] This paper is about a four-legged spider robot that learns how to move in its environment and reacts to physical changes.
[7] This article discusses a dragline-forming robot inspired by spiders
[8] This is the site of Robugtix. This company has a small spider robot, which can make smooth, life-like motions. The toy comes equipped with a 3D printed body, 26 motors, and microcontroller board pre-loaded with the Bigfoot™ Inverse Kinematics Engine.
[9] This paper focusses on a spider-imitated robot used for rescue
Relevant Rescue Robots
[10] This paper is about a rescue robot with debris opening function
[11] This paper is about MOIRA the Mobile Inspection robot for Rescue Activities.
[12] This paper is about a robot that can move the debris.
[13] This patent is about an all-terrain rescue and disaster-relief robot.
[14] This paper discusses an aerial search and rescue robot and its application to a specific earthquake.
[15] This paper is about modular, reconfigurable rescue robots.
[16] This article describes a so called WALK-MAN robot in post-earthquake scenario's.
[17] This patent is for an autonomous detection system and method of rescue robot in disaster area for complex environment
[18] This patent is for a full topography intelligence rescue robot with self-balancing objective table
[19] This patent is about an emergency relief goods transporting robot
Disaster Rescue
[20] This patent focusses on a method for priority evaluation for robots under disaster rescue environment
[21] This article is about a challenge that aims to accelerate the development of robots that can help humans, not only with nuclear emergencies but also with fires, floods, earthquakes, chemical spills, and other kinds of natural and man-made disasters.
[22] This patent is about video search and a rescue robot based on ZigBee wireless positioning and search and rescue method
Rescue robot interaction
[23] This paper provides a short tutorial on how robots are currently used in urban search and rescue and discusses some robot-human interaction issues encountered over the past eight years.
[24] This paper talks about non-facial and non-verbal affective expressions for appearance-constrained robots.
Prototypes of a spider robot
[25] This paper is about a high tech spider prototype, mady by reseachers of the Fraunhofer Institute for Manufacturing Engineering and Automation IPA. The prototype will provide emergency responders with an image of the situation on the ground, along with any data about poisonous substances. Future plans envision its use as an exploratory tool in environments that are too hazardous for humans, or too difficult to get to. Furthermore, the prototype is very cheap to produce.
[26] This site has an instruction guide to print 3D parts of a spider robot with four legs. It is possible to place an arduino in the middle of the design.
[27] This patent is for a novel rescue robot that can efficiently walk in a complex post-disaster area through a design of a spider-like structure
Robots with interesting factors
[28] This robot is portable and foldable and quickly carried in a backpack to a site where inspection, exploration, search and rescue, and other tasks are required to performed.