Your search keyword '"Costanzo, Daniele"' showing total 7 results

1. Modelling and simulation of in-orbit centrifugal casting of a paraffin wax grain inside a 3U CubeSat

Author

Program in Media Arts and Sciences (Massachusetts Institute of Technology), Leuteri Costanzo, Daniele, Stober, Keith Javier, Wood, Danielle, Colombo, Camilla, Program in Media Arts and Sciences (Massachusetts Institute of Technology), Leuteri Costanzo, Daniele, Stober, Keith Javier, Wood, Danielle, and Colombo, Camilla

Published

2022

2. Effect of microstructure and relative humidity on strength and creep of gypsum

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. MSR - Mecànica del Sòls i de les Roques, Ramon Tarragona, Anna, Caselle, Chiara, Bonetto, Sabrina Maria Rita, Costanzo, Daniele, Alonso Pérez de Agreda, Eduardo, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. MSR - Mecànica del Sòls i de les Roques, Ramon Tarragona, Anna, Caselle, Chiara, Bonetto, Sabrina Maria Rita, Costanzo, Daniele, and Alonso Pérez de Agreda, Eduardo

Abstract

The wide range of gypsum facies observed all over the world and the strong heterogeneity that may be present even within a single facies often cause an inhomogeneous mechanical response that, if neglected, may be particularly dangerous in the framework of underground excavations. In addition, gypsum is particularly sensible to the presence of water. The high relative humidity conditions often registered in underground gypsum quarries may imply an additional worsening of mechanical properties. In the present study, the strength and the creep response of a natural gypsum rock facies are investigated, considering the influence of material heterogeneity and relative humidity conditions. The heterogeneity of the material, quantified with MIP and SEM analyses, is observed to strongly affect the mechanical response. To this intrinsic mechanical variability, the influence of an external parameter as the relative humidity is observed to generate an additional reduction of material strength and to increase the creep strain rate in the long-term tests. The effect of all these elements in the underground quarry framework is discussed and a constitutive model of these experimental results is provided., Open access funding provided by Università degli Studi di Torino within the CRUI-CARE Agreement., Peer Reviewed, Postprint (published version)

Published

2021

3. BIOTEX-biosensing textiles for personalised healthcare management.

Author

Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, Bini, Christina, Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, and Bini, Christina

Abstract

Textile-based sensors offer an unobtrusive method of continually monitoring physiological parameters during daily activities. Chemical analysis of body fluids, noninvasively, is a novel and exciting area of personalized wearable healthcare systems. BIOTEX was an EU-funded project that aimed to develop textile sensors to measure physiological parameters and the chemical composition of body fluids, with a particular interest in sweat. A wearable sensing system has been developed that integrates a textile-based fluid handling system for sample collection and transport with a number of sensors including sodium, conductivity, and pH sensors. Sensors for sweat rate, ECG, respiration, and blood oxygenation were also developed. For the first time, it has been possible to monitor a number of physiological parameters together with sweat composition in real time. This has been carried out via a network of wearable sensors distributed around the body of a subject user. This has huge implications for the field of sports and human performance and opens a whole new field of research in the clinical setting.

Published

2010

4. BIOTEX-biosensing textiles for personalised healthcare management.

Author

Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, Bini, Christina, Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, and Bini, Christina

Abstract

Textile-based sensors offer an unobtrusive method of continually monitoring physiological parameters during daily activities. Chemical analysis of body fluids, noninvasively, is a novel and exciting area of personalized wearable healthcare systems. BIOTEX was an EU-funded project that aimed to develop textile sensors to measure physiological parameters and the chemical composition of body fluids, with a particular interest in sweat. A wearable sensing system has been developed that integrates a textile-based fluid handling system for sample collection and transport with a number of sensors including sodium, conductivity, and pH sensors. Sensors for sweat rate, ECG, respiration, and blood oxygenation were also developed. For the first time, it has been possible to monitor a number of physiological parameters together with sweat composition in real time. This has been carried out via a network of wearable sensors distributed around the body of a subject user. This has huge implications for the field of sports and human performance and opens a whole new field of research in the clinical setting.

Published

2010

5. BIOTEX-biosensing textiles for personalised healthcare management.

Author

Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, Bini, Christina, Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, and Bini, Christina

Abstract

Textile-based sensors offer an unobtrusive method of continually monitoring physiological parameters during daily activities. Chemical analysis of body fluids, noninvasively, is a novel and exciting area of personalized wearable healthcare systems. BIOTEX was an EU-funded project that aimed to develop textile sensors to measure physiological parameters and the chemical composition of body fluids, with a particular interest in sweat. A wearable sensing system has been developed that integrates a textile-based fluid handling system for sample collection and transport with a number of sensors including sodium, conductivity, and pH sensors. Sensors for sweat rate, ECG, respiration, and blood oxygenation were also developed. For the first time, it has been possible to monitor a number of physiological parameters together with sweat composition in real time. This has been carried out via a network of wearable sensors distributed around the body of a subject user. This has huge implications for the field of sports and human performance and opens a whole new field of research in the clinical setting.

Published

2010

6. BIOTEX-biosensing textiles for personalised healthcare management.

Author

Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, Bini, Christina, Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, and Bini, Christina

Abstract

Textile-based sensors offer an unobtrusive method of continually monitoring physiological parameters during daily activities. Chemical analysis of body fluids, noninvasively, is a novel and exciting area of personalized wearable healthcare systems. BIOTEX was an EU-funded project that aimed to develop textile sensors to measure physiological parameters and the chemical composition of body fluids, with a particular interest in sweat. A wearable sensing system has been developed that integrates a textile-based fluid handling system for sample collection and transport with a number of sensors including sodium, conductivity, and pH sensors. Sensors for sweat rate, ECG, respiration, and blood oxygenation were also developed. For the first time, it has been possible to monitor a number of physiological parameters together with sweat composition in real time. This has been carried out via a network of wearable sensors distributed around the body of a subject user. This has huge implications for the field of sports and human performance and opens a whole new field of research in the clinical setting.

Published

2010

7. BIOTEX-biosensing textiles for personalised healthcare management.

Author

Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, Bini, Christina, Coyle, Shirley, Lau, King-Tong, Moyna, Niall, O'Gorman, Donal, Diamond, Dermot, Di Francesco, Fabio, Costanzo, Daniele, Salvo, Pietro, Giovanna Trivella, Maria, De Rossi, Danilo, Taccini, Nicola, Paradiso, Rita, Porchet, Jacques-André, Ridofi, Andrea, Luprano, Jean, Chuzel, Cyril, Lanier, Thierry, Revol-Cavalier, Frederic, Schoumacker, Sébastien, Mourier, Veronique, Chartier, Isabelle, Convert, Reynald, De-Moncuit, Henri, and Bini, Christina

Abstract

Textile-based sensors offer an unobtrusive method of continually monitoring physiological parameters during daily activities. Chemical analysis of body fluids, noninvasively, is a novel and exciting area of personalized wearable healthcare systems. BIOTEX was an EU-funded project that aimed to develop textile sensors to measure physiological parameters and the chemical composition of body fluids, with a particular interest in sweat. A wearable sensing system has been developed that integrates a textile-based fluid handling system for sample collection and transport with a number of sensors including sodium, conductivity, and pH sensors. Sensors for sweat rate, ECG, respiration, and blood oxygenation were also developed. For the first time, it has been possible to monitor a number of physiological parameters together with sweat composition in real time. This has been carried out via a network of wearable sensors distributed around the body of a subject user. This has huge implications for the field of sports and human performance and opens a whole new field of research in the clinical setting.

Published

2010