--- license: cc0-1.0 pretty_name: "Observatory Database" language: - en description: >- Comprehensive database of astronomical observatories worldwide, sourced from Wikidata. 609 observatories from 60 countries with coordinates, elevation, aperture size, operator, and wavelength coverage. size_categories: - n<1K task_categories: - tabular-classification tags: - space - astronomy - observatories - telescopes - wikidata - open-data - tabular-data - parquet configs: - config_name: default default: true data_files: - split: train path: data/observatories.parquet --- # Observatory Database *Part of the [Astronomy Datasets](https://huggingface.co/collections/juliensimon/astronomy-datasets-69c24caf2f17e36128946743) collection on Hugging Face.* Comprehensive database of astronomical observatories — **609** facilities from **60** countries, sourced from [Wikidata](https://www.wikidata.org/). ## Dataset description From ancient naked-eye platforms to modern space-based flagship missions, observatories have been humanity's primary windows into the universe. This dataset covers optical telescopes, radio dishes, neutrino detectors, gamma-ray satellites, and space observatories — any facility classified in Wikidata as an astronomical observatory (Q62832), space observatory (Q1377879), or radio observatory (Q148578). Each entry includes geographic coordinates (latitude/longitude), elevation above sea level, primary aperture size, operating organization, opening date, and the electromagnetic wavelength bands observed. This enables spatial analysis of observatory distribution, historical studies of observational astronomy, and comparison of ground-based vs. space-based capabilities. Sourced from Wikidata's structured knowledge base, curated by the WikiProject Astronomy community with contributions from professional astronomers and enthusiasts worldwide. ## Schema | Column | Type | Description | |--------|------|-------------| | `wikidata_id` | string | Wikidata entity ID (e.g. Q179224) | | `name` | string | Observatory name | | `country` | string | Country where the observatory is located | | `latitude` | float | Geographic latitude (decimal degrees) | | `longitude` | float | Geographic longitude (decimal degrees) | | `elevation_m` | float | Elevation above sea level (metres) | | `aperture_m` | float | Primary mirror/dish aperture (metres) | | `operator` | string | Operating organization or agency | | `opening_date` | string | Date the observatory opened (YYYY-MM-DD) | | `wavelengths` | string | Observed wavelength bands, semicolon-separated | ## Quick stats - **609** observatories from **60** countries - **357** with geographic coordinates - **0** with aperture data - **46** with elevation data - Highest elevation: Caltech Submillimeter Observatory (13,570 m) - Estimated ground-based: **510**, space-based: **99** - Top countries: United States (109), United Kingdom (43), Italy (25), France (24), Netherlands (19) - Top wavelength bands: ## Usage ```python from datasets import load_dataset ds = load_dataset("juliensimon/observatory-database", split="train") df = ds.to_pandas() # Observatories by country print(df["country"].value_counts().head(10)) # High-altitude observatories (above 3000 m) high_alt = df[df["elevation_m"] > 3000].sort_values("elevation_m", ascending=False) print(high_alt[["name", "country", "elevation_m"]].head(10)) # Large aperture telescopes (> 8 m) large = df[df["aperture_m"] > 8].sort_values("aperture_m", ascending=False) print(large[["name", "country", "aperture_m"]]) # Radio observatories radio = df[df["wavelengths"].str.contains("radio", case=False, na=False)] print(f"{len(radio):,} radio observatories") # Space observatories space_obs = df[df["wavelengths"].str.contains("X-ray|gamma|ultraviolet", case=False, na=False)] print(space_obs[["name", "wavelengths"]].head(10)) ``` ## Data source [Wikidata](https://www.wikidata.org/) SPARQL endpoint. Observatories identified via property P31 (instance of) = Q62832 (astronomical observatory), Q1377879 (space observatory), or Q148578 (radio observatory). Data is community-curated by [WikiProject Astronomy](https://www.wikidata.org/wiki/Wikidata:WikiProject_Astronomy). ## Update schedule Quarterly (January, April, July, October). Re-run manually to pick up newly catalogued facilities. ## Related datasets - [astronomer-database](https://huggingface.co/datasets/juliensimon/astronomer-database) — Astronomers from Wikidata - [chandra-sources](https://huggingface.co/datasets/juliensimon/chandra-sources) — Chandra X-ray source catalog ## Pipeline Source code: [juliensimon/space-datasets](https://github.com/juliensimon/space-datasets) ## Support If you find this dataset useful, please give it a ❤️ on the [dataset page](https://huggingface.co/datasets/juliensimon/observatory-database) and share feedback in the Community tab! Also consider giving a ⭐️ to the [space-datasets](https://github.com/juliensimon/space-datasets) repo. ## Citation ```bibtex @dataset{observatory_database, author = {Simon, Julien}, title = {Observatory Database}, year = {2026}, publisher = {Hugging Face}, url = {https://huggingface.co/datasets/juliensimon/observatory-database}, note = {Sourced from Wikidata (CC0)} } ``` ## License [CC0-1.0](https://creativecommons.org/publicdomain/zero/1.0/) (Wikidata content is public domain)