Walking hexapod for demining territory of postwar ukraine. Vertical movement

Land Cover Mapping & UAV

Authors

First and Last Name Academic degree E-mail Affiliation
Illia Platov No ilya_platov [at] ukr.net Igor Sikorsky Kyiv Polytechnic Institute
Kyiv, Ukraine
Oleksii Pavlovskyi Ph.D. a_pav [at] ukr.net Igor Sikorsky Kyiv Polytechnic Institute
Kyiv, Ukraine
Yuliia Pavlovska No nakturna [at] ukr.net Igor Sikorsky Kyiv Polytechnic Institute
Kyiv, Ukraine
Serhii Lakoza Ph.D. s.lakoza [at] kpi.ua Igor Sikorsky Kyiv Polytechnic Institute
Kyiv , Ukraine
Oleksandr Sapehin Ph.D. o.sapegin [at] kpi.ua Igor Sikorsky Kyiv Polytechnic Institute
Kyiv, Ukraine

I and my co-authors (if any) authorize the use of the Paper in accordance with the Creative Commons CC BY license

First published on this website: 25.08.2024 - 12:10
Abstract 

Many territories of Ukraine remain mined after the retreat of enemy troops from previously occupied territories. Many explosive objects remain in hard-to-reach places, for example, ventilation ducts, mines, cellars, etc. Such objects are difficult to detect by visual inspection and cannot be removed and destroyed without special means.

The modern level of technology has made it possible to build small-sized walking robots - quadropods (have four limbs) and hexapods (have six limbs). And recent developments have shown that such structures can move not only on horizontal surfaces, but also vertically. Due to the forces of dry friction between the limbs and the surface. With this method of movement, the limbs of the robot are pressed against the opposite walls, thereby fixing the robot at a height. Currently, this method works only in laboratory conditions, that is, in previously known conditions and with programmed behavior. In real conditions, the environment is previously unknown, so existing developments need to be refined. A review of works showed that in existing models, information about the environment comes only from the vision system. Therefore, this paper proposes the use of touch sensors to determine the presence of contact of the limb with the surface for assessment and adjustment of the pressing force, which in the future will make it possible to take into account the energy consumption of the power source and implement economical and efficient movement.

Compared to quadropods, hexapods have greater stability and can perform tasks in hard-to-reach places, therefore, in this work, the main attention is paid to walking hexapods.

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