BEGIN:VCALENDAR VERSION:2.0 PRODID:-//pretalx//talks.osgeo.org//foss4g-asia-2023//P7BRUZ BEGIN:VTIMEZONE TZID:KST BEGIN:STANDARD DTSTART:20000101T000000 RRULE:FREQ=YEARLY;BYMONTH=1 TZNAME:KST TZOFFSETFROM:+0900 TZOFFSETTO:+0900 END:STANDARD END:VTIMEZONE BEGIN:VEVENT UID:pretalx-foss4g-asia-2023-PTGZXH@talks.osgeo.org DTSTART;TZID=KST:20231129T135000 DTEND;TZID=KST:20231129T141000 DESCRIPTION:The SpatioTemporal Asset Catalogs (STAC)\, introduced in 2017\, is an open standard for organizing and sharing geospatial data\, and its usage also conforms to FAIR principles for data. Consequently\, many organ izations have adopted the STAC specification as a standard for implementin g and providing their data in STAC format. As a means for spatial temporal asset indexing\, STAC is presented in JSON or GeoJSON formats\, enabling interoperability with various services and facilitating comprehension for both machines and humans. STAC is not constrained to specific types of geo spatial data\; it can be utilized to catalog a diverse range of assets\, f rom satellite imagery to environmental datasets. Through a well-designed s tructure\, it can be integrated into various applications\, allowing organ izations to harness existing datasets for diverse purposes. STAC also poss esses the capability to search for metadata describing assets based on tim e and location\, rendering spatial temporal assets easily discoverable and accessible. \n\nIn Thailand\, STAC is applied in various scenarios\, incl uding the GISTDA Decision Support System for Disaster Management Platform. In the platform\, STAC catalogs vector data related to flooding areas\, t hermal activities\, and drought indices. Therefore the implemented applica tion can efficiently browse and retrieve data from the STAC catalog\, enha ncing data retrieval speed and user experience. Similarly\, the GISTDA Sat ellite Platform utilizes STAC to catalog satellite imagery. In the impleme nted application\, users can search for desired satellite images based on time\, location\, and conditions. This streamlined approach simplifies the process\, allowing users to find the images they need quickly and easily. DTSTAMP:20260413T203324Z LOCATION:Taepyeong Hall SUMMARY:STAC Specification and Implementation in Real World - Siriya Saenkh om-or\, Sattawat Arab URL:https://talks.osgeo.org/foss4g-asia-2023/talk/PTGZXH/ END:VEVENT BEGIN:VEVENT UID:pretalx-foss4g-asia-2023-MDBKTZ@talks.osgeo.org DTSTART;TZID=KST:20231129T141000 DTEND;TZID=KST:20231129T143000 DESCRIPTION:The OGC SensorThings API is one of the OGC API Standards introd uced in 2016. Its primary goal is to standardize and provide a unified app roach to managing and interacting with Internet of Things (IoT) sensor dat a within a geospatial context. This standardization is essential for appli cations that rely on location-based data\, including environmental monitor ing\, smart cities\, precision agriculture\, and asset tracking.\n \nNowad ays\, there is an increasing adoption of IoT (Internet of Things) technolo gy which facilitates the connection of devices to the cloud\, making it m ore convenient to monitor information originating from these devices\, the reby unlocking the value of incoming data over time. The OGC SensorThings API serves as an optimal choice for managing IoT data\, enabling seamless interaction and analysis of observations.\n\nIn the context of the SensorT hings API\, an IoT device or system is conceptualized as a "Thing\," which has a specific "Location" and can link to one or multiple "Datastreams." Each "Datastream" observes an individual "ObservedProperty" through a corr esponding "Sensor\," generating numerous "Observations." Each "Observation \," measured from the "Sensor\," pertains to a distinct "FeatureOfInterest ." Collectively\, these interconnected relationships establish a flexible and standardized approach for describing and modeling diverse sensing syst ems.\n\nThe SensorThings API contains a comprehensive Create-Read-Update-D elete (CRUD) endpoint\, facilitating a user interface where users can effe ctively manage device data. To enhance convenience and facilitate streamli ned management of device-related information\, a management interface\, wh ether in the form of a website or an application\, significantly contribut es to the ease of data management. DTSTAMP:20260413T203324Z LOCATION:Seoul Archive SUMMARY:IoT Management System in OGC SensorThings API Standard - Siriwat Su ttipanyo\, Siriya Saenkhom-or URL:https://talks.osgeo.org/foss4g-asia-2023/talk/MDBKTZ/ END:VEVENT END:VCALENDAR