📥 Inbound Notifications 669

Time â–¾ Id From To Type Content
2026-04-05 06:54:45 urn:uuid:ad6f4212-c422-4504-983c-7ebaadb991e0 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:ad6f4212-c422-4504-983c-7ebaadb991e0",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-03038019v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "SHELXT",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "The structures were solved by a dual-space algorithm using the SHELXT program,      and then refined with full-matrix least-squares methods based on F 2 (SHELXL program     )."
        ]
    }
}
2026-04-05 06:54:45 urn:uuid:98c2d916-174a-4199-8603-5512f006a849 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:98c2d916-174a-4199-8603-5512f006a849",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-03038019v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "GausView",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "Swizard [49] was used to plot the simulated spectra and GausView      was used for the MO plots."
        ]
    }
}
2026-04-05 06:54:35 urn:uuid:e0aed491-aaf1-43cb-a0ed-8e3de97707c7 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:e0aed491-aaf1-43cb-a0ed-8e3de97707c7",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-02931979v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "iGEMDOCK",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "As mentioned above, molecular docking calculations were reported throughout iGEMDOCK software.",
            "In this study, NBO calculations [34] were employed to determinate the energy of intermolecular interactions, Molecular docking calculations of ligand-proteins complex are carried out via iGEMDOCK [35] based on GEMDOCK scoring function."
        ]
    }
}
2026-04-05 06:54:35 urn:uuid:86a71120-f9a6-49cf-a807-bb09dd12fb35 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:86a71120-f9a6-49cf-a807-bb09dd12fb35",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-02931979v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "WINGX",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "The total number of measured reflections was 6291 (3.1\u00b0 < \u03b8 < 27.5\u00b0) among which 1297 were independent and methods using the SIR97 program      and then refined by the least-square methods coupled with Fourier synthesis using the SHELXL-97 program      implemented in the WINGX software      to R 1 (F 2 ) = 0.035, wR 2 (F 2 ) = 0.096."
        ]
    }
}
2026-04-05 06:54:35 urn:uuid:31512eff-3929-4488-8d1f-4bf51e2ea243 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:31512eff-3929-4488-8d1f-4bf51e2ea243",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-02931979v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "Crystal Explorer",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "This analysis was performed using the Crystal Explorer software     ."
        ]
    }
}
2026-04-05 06:54:35 urn:uuid:144fa3b7-8829-4b5d-8dea-d24885a447b9 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:144fa3b7-8829-4b5d-8dea-d24885a447b9",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-02931979v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "Gaussian",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "The geometrical optimization of 1EPBN carried out by the quantum chemistry methods and especially the DFT method (Density Functional Theory) implemented in the Gaussian program 09      using the functional hybrid B3LYP (Becke's three parameter exchange functional B3 combined with Lee-Yang-Parr correlation functional BLYP) / 6-311++G(d,p)"
        ]
    }
}
2026-04-05 06:54:22 urn:uuid:7fa4e978-2913-4e03-9ad8-ed595f509e5a https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:7fa4e978-2913-4e03-9ad8-ed595f509e5a",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-04072026v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "LabeX",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "\uf0b7 CSF and WHF team was supported by INSERM, Sorbonne Universit\u00e9, Universit\u00e9 de Paris, Ligue Nationale Contre le Cancer (Equipe labellis\u00e9e), CARPEM (Cancer Research for Personalized Medecine, programme of the Sites Integr\u00e9s de Recherche sur le Cancer) (SIRIC), LabeX Immunooncology."
        ]
    }
}
2026-04-05 06:54:22 urn:uuid:08911060-721d-4747-b039-11a421c6fe28 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:08911060-721d-4747-b039-11a421c6fe28",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-04072026v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "SAS",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "Statistical analyses were performed using SAS v9.4 (Cary, USA) and R version 3.6.1."
        ]
    }
}
2026-04-05 06:54:18 urn:uuid:ff2d3a9e-21f7-4ec4-a3e4-06bc985621a6 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:ff2d3a9e-21f7-4ec4-a3e4-06bc985621a6",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-04603138v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "Matlab",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "From a numerical point of view, all calculations for phase equilibria have been performed using an open source Matlab code published by Martin et al.     ."
        ]
    }
}
2026-04-05 06:54:18 urn:uuid:7ad0589d-88e3-45eb-956f-a5c88d155d23 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:7ad0589d-88e3-45eb-956f-a5c88d155d23",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-04603138v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "SAS",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "For SAS applications, this work will be extended to ternary system.",
            "This work can provide keys to a better understanding of processes such as RESS or SAS to be able to target the production of amorphous or crystal organic materials in supercritical CO 2 .",
            "Finally, to the best of our knowledge, metastable liquidvapour equilibrium highlighted in this paper has never been taken in account in classical supercritical crystallization processes such as RESS or SAS processes."
        ]
    }
}
2026-04-05 06:54:13 urn:uuid:d82c8977-aaae-4768-aacd-3ff1ef5e51b4 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:d82c8977-aaae-4768-aacd-3ff1ef5e51b4",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-03480992v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "SHELXT",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "The structures were solved by dual-space algorithm using the SHELXT program,      and then refined with full-matrix least-square method based on F 2 (SHELXL)."
        ]
    }
}
2026-04-05 06:54:13 urn:uuid:845e7bc2-f3bf-4010-b1ec-94e903112345 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:845e7bc2-f3bf-4010-b1ec-94e903112345",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-03480992v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "OLEX2",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "ORTEP views were drawn using OLEX2 software."
        ]
    }
}
2026-04-05 06:53:58 urn:uuid:c3fef8e8-88ee-45d2-8e77-be85eb468ae3 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:c3fef8e8-88ee-45d2-8e77-be85eb468ae3",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/tel-00365172v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "SciLab",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "GreenScilab is a toolbox of the open source software SciLab.",
            "GreenScilab est une boite \u00e0 outils du logiciel libre SciLab."
        ]
    }
}
2026-04-05 06:53:58 urn:uuid:42445f7e-9eca-43d3-8455-06af5dd5881b https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:42445f7e-9eca-43d3-8455-06af5dd5881b",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/tel-00365172v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "AMAPsim",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "GreenLab has inherited the basis concepts developed in AMAPsim software                      ."
        ]
    }
}
2026-04-05 06:53:58 urn:uuid:33bf7596-60d9-46c1-af56-11cf70124cec https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:33bf7596-60d9-46c1-af56-11cf70124cec",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/tel-00365172v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "GreeenScilab",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "The results of simulation and fitting presented in this thesis were performed using the Digiplante and GreeenScilab softwares.",
            "Les r\u00e9sultats de simulation et d'ajustement pr\u00e9sent\u00e9s dans cette these ont \u00e9t\u00e9 r\u00e9alis\u00e9s \u00e0 l'aide des logiciels Digiplante et GreeenScilab."
        ]
    }
}
2026-04-05 06:53:58 urn:uuid:0a1a91d0-f297-40fe-973e-b314c71dc9ba https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:0a1a91d0-f297-40fe-973e-b314c71dc9ba",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/tel-00365172v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "DigiPlante",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "Several algorithms have been implemented in the DigiPlante software: simulated annealing                           , particle swarm optimization                        ], genetic algorithm                      , tree annealing                          , tabu search                               .",
            "pour l'initiation \u00e0 la musique classique, point sur lequel je ne me suis pas montr\u00e9e tr\u00e8s bonne \u00e9l\u00e8ve... Paul-Henry Courn\u00e8de pour son enthousiasme et son implication dans le travail pr\u00e9sent\u00e9 ici, pour ses conseils scientifiques et strat\u00e9giques, pour m'avoir initi\u00e9e et associ\u00e9e au d\u00e9veloppement de notre cher DigiPlante, pour m'avoir guid\u00e9e sur les parties maths applis de la th\u00e8se, pour les nombreuses relectures d'articles et de chapitres de th\u00e8se, m\u00eame lorsque je les lui soumettais tr\u00e8s en retard, pour l'aide dans les moments difficiles (habituellement les veilles de dead-lines !) et le bon repas pr\u00e9par\u00e9 Oc\u00e9ane !"
        ]
    }
}
2026-04-05 06:53:52 urn:uuid:7defce4a-99e8-40a0-a30e-18a59460db8f https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:7defce4a-99e8-40a0-a30e-18a59460db8f",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-03266935v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "Space-Navigator",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "For the 3D mouse we used the Space-Navigator      (Figure    ), a commercial device with 6 DOF."
        ]
    }
}
2026-04-05 06:53:47 urn:uuid:d309459c-d89f-49ce-afee-bc1532570714 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:d309459c-d89f-49ce-afee-bc1532570714",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-04254561v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "bedGraph",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "For each ChIP-seq track, we transformed BigWig to bedGraph, used MACS software 105 version 2 to call the peaks in the \"no model\" mode and merged the results from different replicates."
        ]
    }
}
2026-04-05 06:53:47 urn:uuid:08f03153-7dec-4de8-b2c7-c9bba8311503 https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:08f03153-7dec-4de8-b2c7-c9bba8311503",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-04254561v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "GitHub",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "Python notebooks for PMGA analysis and simulation codes are available on GitHub (https://github.com/physical-biology-of-chromatin/"
        ]
    }
}
2026-04-05 06:53:43 urn:uuid:51810faa-50ca-47db-921e-525c6a954a2f https://datalake.inria.fr https://inria.hal.science ["Offer","coar-notify:ReviewAction"]
{
    "@context": [
        "https://www.w3.org/ns/activitystreams",
        "https://purl.org/coar/notify"
    ],
    "id": "urn:uuid:51810faa-50ca-47db-921e-525c6a954a2f",
    "type": [
        "Offer",
        "coar-notify:ReviewAction"
    ],
    "actor": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "name": "Inria DataLake"
    },
    "origin": {
        "id": "https://datalake.inria.fr",
        "type": "Service",
        "inbox": "https://prod-datadcis-api.inria.fr/coar/inbox"
    },
    "target": {
        "id": "https://inria.hal.science",
        "type": "Service",
        "inbox": "https://inbox.hal.science"
    },
    "object": {
        "id": "https://hal.science/hal-04577175v1",
        "ietf:cite-as": null,
        "sorg:citation": {
            "@context": "https://doi.org/10.5063/schema/codemeta-2.0",
            "type": "SoftwareSourceCode",
            "name": "ImageJ/Fiji",
            "codeRepository": null,
            "referencePublication": null
        },
        "mentionType": "software",
        "mentionContext": [
            "Both were measured using SEM observations and segmentation through standard thresholding techniques using ImageJ/Fiji software     , for regions approximately 1.4 mm wide in adherent top coat areas."
        ]
    }
}