The project

The general objectives of the project are to create an information system to support the
clinical analysis laboratories even more advanced than smart LIMS (Laboratory Information
Management Systems) existing.
It will in fact be equipped with two intelligent systems currently not available on the market, namely:
a) an expert system capable of limiting measurement errors, guaranteeing reliable clinical examinations,
support clinical diagnostics in terms of probability and experimental evidence, allow
accurate assessments on the laboratory's activity and indications on customer satisfaction,
b) a data mining system (extraction of knowledge from data) to carry out predictive diagnoses
based on genetic markers that also take into account the hypotheses put forward by the literature
scientific
Consortium
An established research group with a renowned academic and industrial profile.

The general objectives of the project are to create an information system to support the
clinical analysis laboratories even more advanced than smart LIMS (Laboratory Information
Management Systems) existing.

It will in fact be equipped with two intelligent systems currently not available on the market, namely:

a) an expert system capable of limiting measurement errors, guaranteeing reliable clinical examinations,
support clinical diagnostics in terms of probability and experimental evidence, allow
accurate assessments on the laboratory's activity and indications on customer satisfaction,

b) a data mining system (extraction of knowledge from data) to carry out predictive diagnoses
based on genetic markers that also take into account the hypotheses put forward by the literature
scientific

Consortium
An established research group with a renowned academic and industrial profile.
The consortium is made up of:

  • CertyCeq srl (Lead Partner)
  • Campisi laboratories
  • GEST srl
  • SCS AREA
  • SALVIX srl
  • SAMOT Catania Onlus
  • Department of Electrical, Electronic and Computer Engineering of the University of Catania (DIEEI)

Remote home medical assistance through an interactive smart medicine infrastructure

The project

The project, called iHOSP, aims to provide remote medical care for terminally ill patients
with performances similar to those of a hospitalization through a technological infrastructure
interactive and smart medicine. Compared to the classic essentially technological telemedicine systems
and focused on collecting patient data, iHOSP pursues the goals of activating a
medical care model where technology supports not only monitoring but also
the delivery of therapy and routine medical checks and in critical conditions. For this the
the objectives are not to collect more or less data about the patient in a more or less time
fast but the more general ones to reach a synthesis between medicine and information engineering
for a certified or certifiable remote assistance model for medical purposes capable of
improve the quality of life of the terminally ill and of home care

Consortium

An established research group with a renowned academic and industrial profile.
The consortium is made up of:

  • GEST srl (Lead Partner)
  • Scrl Medical Services Center (CSM)
  • CertyCeq sr
  • SCS AREA
  • SALVIX srl
  • SAMOT Catania Onlus
  • Department of Electrical, Electronic and Computer Engineering of the University of Catania (DIEEI)

Definition and qualification of an innovative system of traceability and certification of supply chains
zootechnics characterized by the use of animal feed of residual biomass from the olive sector.

The project

The project aims to define an innovative system of traceability and certification of the supply chain through
the identification of genomic markers and nutraceutical biomolecules (derived from oil) in products
final products such as milk, fresh cheeses and meat, also developing computerized traceability systems and
electronic identification of final products.

Consortium

An established research group with a renowned academic and industrial profile.
The consortium is made up of:

  • Mangimi Di Pasquale srl, Avola (SR) Lead partner
  • Consoli Pasquale & F.lli snc, Adrano (CT)
  • Nature & Quality Agricultural Company arl, Ragusa
  • CertyCeq srl, Catania
  • University of Messina-Department of Veterinary Sciences
  • University of Catania - Department of Electronic Electrical Engineering ed
  • Computer technology; Department of Agriculture, Food and Environment
  • Meat Industry Research Consortium, Messina

Nanstructured SENSOR for Oxidative Stress

The project

The project aims at the realization of the prototype of an amperometric nano-sensor for the
detection of hydrogen peroxide in the culture medium of in vitro / ex vivo cell systems. There
Relevance of this sensor lies in the fact that hydrogen peroxide is an indicator of
inflammation and oxidative stress in cell systems of different nature, such as, for example, cells of the
immune system (macrophages, neutrophils, lymphocytes) and structural cells (e.g. nasal epithelials
and bronchial epithelial). So the project aims to make an innovative device available
which allows to monitor the onset and progress of oxidative stress in experimental models
that reproduce pathologies that can afflict the human body.

Consortium

An established research group with a renowned academic and industrial profile.
The consortium is made up of:

  • DIPIETRO GROUP (Lead Partner)
  • CERTYCEQ
  • MICROSYSTEMS
  • RULETECH
  • RiMED FOUNDATION
  • IBIM / CNR
  • UNIPA

Intelligent Management Device for Electrophysical Dehumidification Systems

The project

The onset of damp phenomena in the masonry is a widespread problem
manifests itself in all the wall structures of every epoch. Despite the evolution that the techniques
construction have undergone over time, this problem has never been resolved definitively, e
still today represents a critical element in the maintenance of buildings, especially those
with high historical-cultural value. Humidity, in fact, generates a slow erosive action that it does not
it limits to compromising the aesthetics of the building, but can lead to the flaking of the plasters e
damage to the structure itself. Therefore, the humidity control in the masonry and the
containment of the phenomena of deterioration connected to it are indispensable elements for the purpose
to guarantee the solidity of the structures and their conservation over time. Goal of the project,
therefore, is to develop a control unit which, through the use of a system of
wireless communication, is able to interface with a network of thermo-hygrometric sensors, and
adjust the operation of the dehumidification device in relation to the specific conditions
of the masonry. In this way it is possible to optimize the operation of the device
dehumidification in relation to the different characteristics that the rising phenomenon can assume
over time, reducing energy consumption and thus improving the effectiveness and efficiency of the
system.

Consortium

An established research group with a renowned academic and industrial profile.
The consortium is made up of:

  • SKM srl (Lead Partner)
  • University of Palermo (SiMuA University Museum System Service Center - Botanical Garden,
  • Department of Industrial and Digital Innovation DIID)
  • CertyCeq srl
  • Solfin spa
  • ADService srl