We apologize this page has not been translated yet. You can use this tool to browse our website in any language.
Louise Leduc
louise.mazzonil
6615399515
Leduc
Louise
louise.mazzoni-leduc@hesge.ch
fr
2
Off
On
{"id":7833799,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"louise.mazzonil","project":{"translations":{"fr":{"id":25206,"title":"Ressources min\u00e9rales alternatives pour la fabrication de liants cimentaires \u00e0 faible empreinte carbone : Applications aux mat\u00e9riaux de constructions durables.","description":"Ce projet de Ra&D s'inscrit dans une d\u00e9marche de r\u00e9duction de l'empreinte carbone dans le domaine de la construction, de la pr\u00e9servation des ressources naturelles non renouvelables ainsi que du recyclage de d\u00e9chets issus de la fili\u00e8re d'approvisionnement en mati\u00e8res min\u00e9rales. Ce projet vise \u00e0 initier un mod\u00e8le d'\u00e9conomie circulaire dans l'industrie de la construction permettant de r\u00e9pondre aux enjeux environnementaux li\u00e9s \u00e0 l'accumulation de mati\u00e8res min\u00e9rales issues de d\u00e9chets.\r\n\r\nLe projet CO2RED a pour objectif principal de d\u00e9montrer la faisabilit\u00e9 de valoriser les fines de lavages issues de l'exploitation des carri\u00e8res (actuellement tr\u00e8s peu ou non valoris\u00e9es) par :\r\n'\tLe d\u00e9veloppement de liants alternatifs \u00e0 faible empreinte carbone, peu co\u00fbteux et pr\u00e9sentant des performances adapt\u00e9es aux exigences du march\u00e9, et \u00e0 proposer :\r\no\tUne nouvelle voie de r\u00e9duction du taux de clinker dans les mortiers et b\u00e9tons.\r\no\tUne alternative aux laitiers de hauts fourneaux\r\no\tUne alternative sans ciment pour la stabilisation de la terre crue\r\n\r\n'\tLeur incorporation dans les sables pour la confection de mortiers et b\u00e9tons, afin d'obtenir une nouvelle gamme de sables \u00e0 fines pouzzolaniques, pr\u00e9servant ainsi cette mati\u00e8re premi\u00e8re indispensable mais limit\u00e9e.\r\nCe projet contribuera notamment \u00e0 atteindre des objectifs sociaux, \u00e9cologiques et \u00e9conomiques en fournissant une strat\u00e9gie de valorisation qui r\u00e9duira le stock de d\u00e9chets min\u00e9raux, \u00e9vitera l'engorgement des sites de stockage. Actuellement, les 5 millions de tonnes de boues de lavage produites chaque ann\u00e9e en Suisse sont \u00e9limin\u00e9es en d\u00e9charge ou retourn\u00e9es sur le site d'extraction pour y \u00eatre stock\u00e9es.\r\n"},"en":{"id":25207,"title":"Ressources min\u00e9rales alternatives pour la fabrication de liants cimentaires \u00e0 faible empreinte carbone : Applications aux mat\u00e9riaux de constructions durables.","description":"Ce projet de Ra&D s'inscrit dans une d\u00e9marche de r\u00e9duction de l'empreinte carbone dans le domaine de la construction, de la pr\u00e9servation des ressources naturelles non renouvelables ainsi que du recyclage de d\u00e9chets issus de la fili\u00e8re d'approvisionnement en mati\u00e8res min\u00e9rales. Ce projet vise \u00e0 initier un mod\u00e8le d'\u00e9conomie circulaire dans l'industrie de la construction permettant de r\u00e9pondre aux enjeux environnementaux li\u00e9s \u00e0 l'accumulation de mati\u00e8res min\u00e9rales issues de d\u00e9chets.\r\n\r\nLe projet CO2RED a pour objectif principal de d\u00e9montrer la faisabilit\u00e9 de valoriser les fines de lavages issues de l'exploitation des carri\u00e8res (actuellement tr\u00e8s peu ou non valoris\u00e9es) par :\r\n'\tLe d\u00e9veloppement de liants alternatifs \u00e0 faible empreinte carbone, peu co\u00fbteux et pr\u00e9sentant des performances adapt\u00e9es aux exigences du march\u00e9, et \u00e0 proposer :\r\no\tUne nouvelle voie de r\u00e9duction du taux de clinker dans les mortiers et b\u00e9tons.\r\no\tUne alternative aux laitiers de hauts fourneaux\r\no\tUne alternative sans ciment pour la stabilisation de la terre crue\r\n\r\n'\tLeur incorporation dans les sables pour la confection de mortiers et b\u00e9tons, afin d'obtenir une nouvelle gamme de sables \u00e0 fines pouzzolaniques, pr\u00e9servant ainsi cette mati\u00e8re premi\u00e8re indispensable mais limit\u00e9e.\r\nCe projet contribuera notamment \u00e0 atteindre des objectifs sociaux, \u00e9cologiques et \u00e9conomiques en fournissant une strat\u00e9gie de valorisation qui r\u00e9duira le stock de d\u00e9chets min\u00e9raux, \u00e9vitera l'engorgement des sites de stockage. Actuellement, les 5 millions de tonnes de boues de lavage produites chaque ann\u00e9e en Suisse sont \u00e9limin\u00e9es en d\u00e9charge ou retourn\u00e9es sur le site d'extraction pour y \u00eatre stock\u00e9es.\r\n"},"de":{"id":25208,"title":"Ressources min\u00e9rales alternatives pour la fabrication de liants cimentaires \u00e0 faible empreinte carbone : Applications aux mat\u00e9riaux de constructions durables.","description":"Ce projet de Ra&D s'inscrit dans une d\u00e9marche de r\u00e9duction de l'empreinte carbone dans le domaine de la construction, de la pr\u00e9servation des ressources naturelles non renouvelables ainsi que du recyclage de d\u00e9chets issus de la fili\u00e8re d'approvisionnement en mati\u00e8res min\u00e9rales. Ce projet vise \u00e0 initier un mod\u00e8le d'\u00e9conomie circulaire dans l'industrie de la construction permettant de r\u00e9pondre aux enjeux environnementaux li\u00e9s \u00e0 l'accumulation de mati\u00e8res min\u00e9rales issues de d\u00e9chets.\r\n\r\nLe projet CO2RED a pour objectif principal de d\u00e9montrer la faisabilit\u00e9 de valoriser les fines de lavages issues de l'exploitation des carri\u00e8res (actuellement tr\u00e8s peu ou non valoris\u00e9es) par :\r\n'\tLe d\u00e9veloppement de liants alternatifs \u00e0 faible empreinte carbone, peu co\u00fbteux et pr\u00e9sentant des performances adapt\u00e9es aux exigences du march\u00e9, et \u00e0 proposer :\r\no\tUne nouvelle voie de r\u00e9duction du taux de clinker dans les mortiers et b\u00e9tons.\r\no\tUne alternative aux laitiers de hauts fourneaux\r\no\tUne alternative sans ciment pour la stabilisation de la terre crue\r\n\r\n'\tLeur incorporation dans les sables pour la confection de mortiers et b\u00e9tons, afin d'obtenir une nouvelle gamme de sables \u00e0 fines pouzzolaniques, pr\u00e9servant ainsi cette mati\u00e8re premi\u00e8re indispensable mais limit\u00e9e.\r\nCe projet contribuera notamment \u00e0 atteindre des objectifs sociaux, \u00e9cologiques et \u00e9conomiques en fournissant une strat\u00e9gie de valorisation qui r\u00e9duira le stock de d\u00e9chets min\u00e9raux, \u00e9vitera l'engorgement des sites de stockage. Actuellement, les 5 millions de tonnes de boues de lavage produites chaque ann\u00e9e en Suisse sont \u00e9limin\u00e9es en d\u00e9charge ou retourn\u00e9es sur le site d'extraction pour y \u00eatre stock\u00e9es.\r\n"}},"id":135006,"acronym":"PL - REDCO2","mainTitle":"Ressources min\u00e9rales alternatives pour la fabrication de liants cimentaires \u00e0 faible empreinte carbone : Applications aux mat\u00e9riaux de constructions durables.","mainDescription":"Ce projet de Ra&D s'inscrit dans une d\u00e9marche de r\u00e9duction de l'empreinte carbone dans le domaine de la construction, de la pr\u00e9servation des ressources naturelles non renouvelables ainsi que du recyclage de d\u00e9chets issus de la fili\u00e8re d'approvisionnement en mati\u00e8res min\u00e9rales. Ce projet vise \u00e0 initier un mod\u00e8le d'\u00e9conomie circulaire dans l'industrie de la construction permettant de r\u00e9pondre aux enjeux environnementaux li\u00e9s \u00e0 l'accumulation de mati\u00e8res min\u00e9rales issues de d\u00e9chets.\r\n\r\nLe projet CO2RED a pour objectif principal de d\u00e9montrer la faisabilit\u00e9 de valoriser les fines de lavages issues de l'exploitation des carri\u00e8res (actuellement tr\u00e8s peu ou non valoris\u00e9es) par :\r\n'\tLe d\u00e9veloppement de liants alternatifs \u00e0 faible empreinte carbone, peu co\u00fbteux et pr\u00e9sentant des performances adapt\u00e9es aux exigences du march\u00e9, et \u00e0 proposer :\r\no\tUne nouvelle voie de r\u00e9duction du taux de clinker dans les mortiers et b\u00e9tons.\r\no\tUne alternative aux laitiers de hauts fourneaux\r\no\tUne alternative sans ciment pour la stabilisation de la terre crue\r\n\r\n'\tLeur incorporation dans les sables pour la confection de mortiers et b\u00e9tons, afin d'obtenir une nouvelle gamme de sables \u00e0 fines pouzzolaniques, pr\u00e9servant ainsi cette mati\u00e8re premi\u00e8re indispensable mais limit\u00e9e.\r\nCe projet contribuera notamment \u00e0 atteindre des objectifs sociaux, \u00e9cologiques et \u00e9conomiques en fournissant une strat\u00e9gie de valorisation qui r\u00e9duira le stock de d\u00e9chets min\u00e9raux, \u00e9vitera l'engorgement des sites de stockage. Actuellement, les 5 millions de tonnes de boues de lavage produites chaque ann\u00e9e en Suisse sont \u00e9limin\u00e9es en d\u00e9charge ou retourn\u00e9es sur le site d'extraction pour y \u00eatre stock\u00e9es.\r\n","value":"220000.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1854726,"name":"","confidential":false,"types":[{"id":4,"code":"CO"}],"institution":"INSIT","class":"academique"},{"id":1854727,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inPACT","class":"academique"}],"collaborators":[{"id":7833798,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"abdelkri.bennani","project":135006},{"id":7833799,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"louise.mazzonil","project":135006},{"id":7833800,"role":"CO","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"marco.viviani","project":135006}],"dataHub":true,"startAt":"2025-01-01T00:00:00+01:00","endAt":"2026-06-30T00:00:00+02:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}{"id":7830553,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"louise.mazzonil","project":{"translations":{"fr":{"id":23232,"title":"Mechanical, chemical & structure properties of acoustic materials.","description":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers."},"en":{"id":23233,"title":"Mechanical, chemical & structure properties of acoustic materials.","description":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers."},"de":{"id":23234,"title":"Mechanical, chemical & structure properties of acoustic materials.","description":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers."}},"id":130489,"acronym":"AE - AcouMat","mainTitle":"Mechanical, chemical & structure properties of acoustic materials.","mainDescription":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers.","value":"67000.00","finished":true,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1854006,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inTECH","class":"academique"},{"id":1854007,"name":"Milosevic Irena","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inTECH","class":"academique"}],"collaborators":[{"id":7830550,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"marc.chambord","project":130489},{"id":7830551,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"romain.boulande","project":130489},{"id":7830552,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"irena.milosevi","project":130489},{"id":7830553,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"louise.mazzonil","project":130489},{"id":7830554,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"marco.vanderbe","project":130489}],"dataHub":true,"startAt":"2024-05-30T00:00:00+02:00","endAt":"2025-03-01T00:00:00+01:00","fundingSource":"HES-SO Rectorat; Hidden Sound GmbH","publications":[],"projectUrl":null,"repo_name":null}}{"id":7779153,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"louise.mazzonil","project":{"translations":{"fr":{"id":25632,"title":"Mechanical, chemical & structure properties of acoustic materials.","description":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers."},"en":{"id":25633,"title":"Mechanical, chemical & structure properties of acoustic materials.","description":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers."},"de":{"id":25634,"title":"Mechanical, chemical & structure properties of acoustic materials.","description":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers."}},"id":137704,"acronym":"VAL - AE - AcouMat","mainTitle":"Mechanical, chemical & structure properties of acoustic materials.","mainDescription":"The acoustic materials are highly porous and have specific mechanical and structure properties in order to produce sound effects. Some woods are known for centuries as the excellent acoustic materials and thus used for building of music instruments (as the violine). It was early recognized that properties of individual wood pieces of the same wood type can have very different acoustic performance. When going into smaller size pieces of an acoustic material, this effect is\r\neven more pronounced. For example: balsa wood is known as a great acoustic material for a long time, but the 100 different pieces of balsa wood having for example 4mm thickness, often have the different material properties (chemical, mechanical and structure) between them. The consequence is a different acoustic response of these pieces of the same material. But, this issue is not only\r\nhappening with woods, as natural materials, but also with engineered materials, as acoustic foams made from various polymers.","value":"7500.00","finished":false,"pilier":6,"url":null,"keywords":null,"disciplines":[],"axes":[],"partners":[{"id":1840547,"name":"","confidential":false,"types":[{"id":3,"code":"RP"},{"id":4,"code":"CO"}],"institution":"HEPIA inTECH","class":"academique"}],"collaborators":[{"id":7779151,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"marc.chambord","project":137704},{"id":7779152,"role":"RP","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"irena.milosevi","project":137704},{"id":7779153,"role":"ME","display":false,"displayRole":true,"displayFinancialPartner":true,"displayAcademicPartner":true,"displayProfessionalPartner":true,"collaborator":"louise.mazzonil","project":137704}],"dataHub":true,"startAt":"2025-04-25T00:00:00+02:00","endAt":"2025-12-31T00:00:00+01:00","fundingSource":"HES-SO Rectorat","publications":[],"projectUrl":null,"repo_name":null}}[{"id":9431690174,"position":-1,"master":1,"function":"Intervenante externe","title":null,"email":"louise.mazzoni-leduc@hefr.ch","display":true,"jobLocation":null,"phone":null,"phoneVisible":false,"employer":{"translations":{"fr":{"id":389,"name":"Haute \u00e9cole d'ing\u00e9nierie et d'architecture de Fribourg"}},"id":21,"ldapId":"RORG-HEFR-EIFR","abbreviation":"HEIA-FR","link":"http:\/\/www.heia-fr.ch","mail":"valerie.schornoz@hefr.ch ","logo":"http:\/\/people.hes-so.ch\/build\/img\/logos\/logo_heia-fr.png","gmap":"46.793431, 7.159076","type":{"id":3,"name":"Ecole membre"},"addresses":[{"id":1079,"type":"adressePrincipale","street":"Boulevard de P\u00e9rolles 80","officeBox":"","country":"CH","city":"1700 Fribourg"}],"mainDomain":null,"secondaryDomain":null,"programs":[{"id":17,"empty":false,"name":"BSc HES-SO en Informatique"},{"id":21,"empty":false,"name":"BSc HES-SO en T\u00e9l\u00e9communications"},{"id":22,"empty":false,"name":"BSc HES-SO en G\u00e9nie m\u00e9canique"},{"id":23,"empty":false,"name":"BSc HES-SO en G\u00e9nie \u00e9lectrique"},{"id":24,"empty":false,"name":"BSc HES-SO en G\u00e9nie civil"},{"id":25,"empty":false,"name":"BSc HES-SO en Chimie"},{"id":26,"empty":false,"name":"BA HES-SO en Architecture"},{"id":79,"empty":false,"name":"BSC HES-SO en Informatique et syst\u00e8mes de communication"}]},"instituts":[],"service":{"translations":{"fr":{"id":482,"name":"G\u00e9nie m\u00e9canique"}},"id":701522,"ldapId":"RORG-HEFR-EIFR-TIND-MECA","abbreviation":"GM","link":null,"mail":null,"logo":null,"gmap":null,"type":{"id":17,"name":"Ra&D"},"addresses":[],"mainDomain":null,"secondaryDomain":null,"programs":[]},"serviceHesso":null,"branch":null},{"id":11215261574,"position":1,"master":0,"function":"","title":null,"email":"louise.mazzoni-leduc@hesge.ch","display":true,"jobLocation":"B228","phone":"+41 22 558 51 64","phoneVisible":false,"employer":{"translations":{"fr":{"id":23,"name":"Haute \u00e9cole du paysage, d'ing\u00e9nierie et d'architecture de Gen\u00e8ve"}},"id":561,"ldapId":"RORG-HEGE-EPIA","abbreviation":"hepia","link":"http:\/\/www.hesge.ch\/hepia","mail":"RHHEPIA@hesge.ch ","logo":"http:\/\/people.hes-so.ch\/build\/img\/logos\/logo_hepia-ge.png","gmap":"46.209551, 6.135261","type":{"id":3,"name":"Ecole membre"},"addresses":[{"id":1054,"type":"adressePrincipale","street":"Rue de la Prairie 4","officeBox":"","country":"CH","city":"1202 Gen\u00e8ve"}],"mainDomain":null,"secondaryDomain":null,"programs":[{"id":15,"empty":false,"name":"BSc HES-SO en Microtechniques"},{"id":22,"empty":false,"name":"BSc HES-SO en G\u00e9nie m\u00e9canique"},{"id":24,"empty":false,"name":"BSc HES-SO en G\u00e9nie civil"},{"id":26,"empty":false,"name":"BA HES-SO en Architecture"},{"id":49,"empty":false,"name":"BSc HES-SO en Technique des b\u00e2timents"},{"id":50,"empty":false,"name":"BSc HES-SO en Ing\u00e9nierie des technologies de l'information"},{"id":51,"empty":false,"name":"BSc HES-SO en Gestion de la nature"},{"id":52,"empty":false,"name":"BSc HES-SO en Architecture du paysage"},{"id":53,"empty":false,"name":"BSc HES-SO en Agronomie"},{"id":79,"empty":false,"name":"BSC HES-SO en Informatique et syst\u00e8mes de communication"},{"id":80,"empty":false,"name":"BSc en Informatique et syst\u00e8mes de communication"}]},"instituts":[],"service":{"translations":{"fr":{"id":23,"name":"Haute \u00e9cole du paysage, d'ing\u00e9nierie et d'architecture de Gen\u00e8ve"}},"id":561,"ldapId":"RORG-HEGE-EPIA","abbreviation":"hepia","link":"http:\/\/www.hesge.ch\/hepia","mail":"RHHEPIA@hesge.ch ","logo":"http:\/\/people.hes-so.ch\/build\/img\/logos\/logo_hepia-ge.png","gmap":"46.209551, 6.135261","type":{"id":3,"name":"Ecole membre"},"addresses":[{"id":1054,"type":"adressePrincipale","street":"Rue de la Prairie 4","officeBox":"","country":"CH","city":"1202 Gen\u00e8ve"}],"mainDomain":null,"secondaryDomain":null,"programs":[{"id":15,"empty":false,"name":"BSc HES-SO en Microtechniques"},{"id":22,"empty":false,"name":"BSc HES-SO en G\u00e9nie m\u00e9canique"},{"id":24,"empty":false,"name":"BSc HES-SO en G\u00e9nie civil"},{"id":26,"empty":false,"name":"BA HES-SO en Architecture"},{"id":49,"empty":false,"name":"BSc HES-SO en Technique des b\u00e2timents"},{"id":50,"empty":false,"name":"BSc HES-SO en Ing\u00e9nierie des technologies de l'information"},{"id":51,"empty":false,"name":"BSc HES-SO en Gestion de la nature"},{"id":52,"empty":false,"name":"BSc HES-SO en Architecture du paysage"},{"id":53,"empty":false,"name":"BSc HES-SO en Agronomie"},{"id":79,"empty":false,"name":"BSC HES-SO en Informatique et syst\u00e8mes de communication"},{"id":80,"empty":false,"name":"BSc en Informatique et syst\u00e8mes de communication"}]},"serviceHesso":null,"branch":{"translations":{"fr":{"id":195,"name":"G\u00e9nie civil"}},"id":201681,"abbreviation":"GECI","type":1,"ldapId":"RACA-COEN-GECI","parent":{"translations":{"fr":{"id":321,"name":"Architecture, construction et planification"}},"id":195388,"abbreviation":"COEN","type":0,"ldapId":"RACA-COEN","parent":null}}}]