HeritageBot is a project on technological and
market development of robotic patents for cultural
heritage (mainly archaeological and architectural)
and the development of services for
operational applications (industrial, cultural,
educational, etc.) of the identified technological
solutions.
The article focuses on hexapods robot designed
to be applied to the analysis of architecture. The
robot must perform many of the operations needed
in Architectural survey through automated
manoeuvres. These manoeuvres could improve
procedures and results, both in terms of speed
and accuracy of execution.
An interdisciplinary research group of the University
of Cassino has been working designing two
robots. The group built two prototypes. Currently
we are developing validation test and solutions
tests for general background and specific cases.

Architectural survey; Robotics; New technologies for Cultural Heritage

Carbone Giuseppe, et al, 2007. Operation

strategy for a low-cost easyoperation

Cassino Hexapod. Applied

Bionics and Biomechanics, N. 4, 4,

pp. 149-156.

Carbone Giuseppe, Suciu Marius,

Ceccarelli Marco, Pisla Doina, 2009.

Design and Simulation of Cassino

Hexapode Walking Machine. International

Journal of Mechanics and

Control, N. 10 2009; pp. 27-34.

Carbone Giuseppe, Tedeschi Franco,

A low cost control architecture

for Cassino Hexapod II. International

Journal of Mechanics and Control,

vol 14 n. 1, pp. 19-24.

Carbone Giuseppe, Cigola Michela,

Tedeschi Franco, 2014. The challenge

of architectonic survey and

restoration of historical sites for

servece robotics. In print in Preoceeding

of IARP. International Advanced

robotics program International Workshop.

Frascati may 2014.

Ceccarelli M., Cigola M., Service robots

for restoration of goods of cultural

heritage in Service Robots and

Robotics: Design and Application

edited by di M. Ceccarelli, published

by IGI Global, Hershey, Pennsylvania

(USA), 2012; pp. 213-228. ISBN

-1-4666-0291-5 (hardcover) -

ISBN 978-1-4666-0292-2 (ebook);

DOI: 10.4018/978-1-4666-0291-5.

ch012

Chella Antonio, 2007. CiceRobot:

a cognitive robot for interactive

museum tours. Industrial Robot,

/2007; 34(6):503-511. DOI:

1108/01439910710832101

Cigola M., Gallozzi A., Nuove tecnologie

per l’analisi e la conservazione

del patrimonio architettonico In Italian

Survey & International Experience.

A cura di Paolo Giandebiaggi e

Chiara Vernizzi; Roma Gangemi editore

; pp. 795-802. ISBN:88-

-2915-1(hardcover) - ISBN 978-

-492-2915-8 (ebook)

Ceccarelli Marco, Cigola Michela,

et al 2002. A study of feasibility of

using robots in architecture analisis

and survey of a historical pavement.

Proceedings of 11th International

workshop on Robotics in Alpe-Adria-

Danube Region. Budapest, Budapest

Polytechnic Editor, pp. 113-118.

Cigola Michela, Ceccarelli Marco,

A Robot application for

analysis, survey and conservation of

historical architectures in Robotics

and Automation in Construction, edited

by C. Balaguer & M Abderrahin,

I-Tech Educational and Publishing

KG Vienna, Cap. 20, pp. 328-354.

Song S.M., Waldron K., Machines

that walk: The adaptive suspension

vehicle, MIT Press: Cambridge,

; pp.107-112

Zielinska T. 2010. Autonomous

walking machine discussion of the

prototyping problems. Bulletin of Polish

academy of Sciences. Technical

Sciences, vol. 58 n. 3, pp. 443-451