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Line 1: {{short description\|Astronomy database about small Solar System bodies}} ~~<ref name="jpl-sso" />~~The '''JPL Small-Body Database''' ('''SBDB''') is an [[astronomy]] [[database]] about [[small Solar System body\|small Solar System bodies]]. It ~~iuh<ref />s~~is maintained by [[Jet Propulsion Laboratory]] (JPL) and [[NASA]] and provides data for all known [[asteroid]]s and several [[comet]]s, including [[orbit]]al parameters and diagrams, physical diagrams, close approach details, radar astrometry, discovery circumstances, alternate designations and lists of publications related to the small body.<ref>{{Cite web\|title=Small-Body Database Lookup\|url=https://ssd.jpl.nasa.gov/tools/sbdb_lookup.html#/\|access-date=2021-10-01\|website=ssd.jpl.nasa.gov}}</ref> The database is updated daily when new observations are available.<ref> {{cite web \|url=http://ssd.jpl.nasa.gov/sbdb.cgi \|title=JPL Small-Body Database browser \|publisher=[[NASA]]/[[Jet Propulsion Laboratory\|JPL]] \|access-date=2012-03-19 \|archive-url=https://web.archive.org/web/20210922230327/http://ssd.jpl.nasa.gov/sbdb.cgi \|archivedate=2021-09-22 \|url-status=live}}</ref> In April 2021 the JPL Small-Body Database ~~Browser~~ started using planetary [[ephemeris]] ([[Jet Propulsion Laboratory Development Ephemeris#Ephemerides in the series\|DE441]]) and small-body perturber SB441-N16. Most objects such as asteroids get a [[Osculating orbit\|two-body solution]] (Sun+object) recomputed twice a year. Comets generally have their two-body orbits computed at a time near the perihelion passage (closest approach to the Sun) as to have the two-body orbit more reasonably accurate for both before and after perihelion. For most asteroids, the [[Epoch (astronomy)\|epoch]] used to define an orbit is updated twice a year. Orbital uncertainties in the JPL Small-Body Database are listed at the [[68–95–99.7 rule\|1-sigma]] level. ▼ ~~{{cite web~~ ~~\|url=http://ssd.jpl.nasa.gov/sbdb.cgi~~ ~~\|title=JPL Small-Body Database browser~~ ~~\|publisher=[[NASA]]/[[Jet Propulsion Laboratory\|JPL]]~~ ~~\|access-date=2012-03-19~~ ▲}}</ref> In April 2021 the JPL Small-Body Database Browser started using planetary [[ephemeris]] ([[Jet Propulsion Laboratory Development Ephemeris#Ephemerides in the series\|DE441]]) and small-body perturber SB441-N16. Most objects such as asteroids get a [[Osculating orbit\|two-body solution]] (Sun+object) recomputed twice a year. Comets generally have their two-body orbits computed at a time near the perihelion passage (closest approach to the Sun) as to have the two-body orbit more reasonably accurate for both before and after perihelion. For most asteroids, the [[Epoch (astronomy)\|epoch]] used to define an orbit is updated twice a year. On 27 September 2021 the JPL Solar System Dynamics website underwent a significant upgrade. {{val\|233000}} orbits were computed in August 2021 and in the ~~last~~ 12 months to August 2021, more than 3.3 million orbits ~~have been~~were computed.<ref name=jpl-sso/> == ~~Close-approach~~Orbit ~~data~~viewer == In the past, one could view a 3D visualization of the body's orbit using a [[Java (programming language)\|Java]] applet. As of mid-2023, one could see something similar using JPL's Orbit Viewer tool, which was implemented using [[JavaScript]], [[Three.js]] and [[WebGL]]. As of August 2013 (planetary [[ephemeris]] [[Jet Propulsion Laboratory Development Ephemeris\|DE431]]) close-approach data is available for the major planets and the 16 most massive asteroids. Close approach data is available by adding <code>&view=OPC</code> to the [[query string]] at the end of the body's [[URL]]. Close approach data use to be available by adding <code>;cad=1</code> or <code>&cad=1</code> to the query string. The [[Wayback Machine]] prefers the <code>&cad=1</code> option. The JPL Small-Body Database close approach table lists a [[Linearity\|linearized]] uncertainty. The time of close approach uncertainty and min/max distance correspond to the [[3-sigma]] level. ~~A [[Java (programming language)\|Java]] applet is available and provided as a 3D~~The orbit ~~visualization~~viewer ~~tool. The applet was implemented using~~uses unreliable [[Two-body problem\|2two-body methods]], and hence should not be used for accurately determining ~~accurate~~the ~~long-term~~[[Apsis#Time ~~trajectories~~of ~~(over~~perihelion\|time ~~several~~of ~~years~~perihelion ~~or decades)~~passage]] or planetary encounter circumstances. For accurate ephemerides use the [[JPL Horizons On-Line Ephemeris System]] that handles the [[n-body problem]] using [[numerical integration]]. ~~The Java applet is available by adding~~ <~~code~~ref>[https://ssd.jpl.nasa.gov/tools/sbdb_lookup.html#/?sstr=54509621&view=~~VOP~~V JPL Note]</~~code~~ref> ~~to the query string at the end of the body's URL.~~▼ ~~== Orbit diagram ==~~ ▲A [[Java (programming language)\|Java]] applet is available and provided as a 3D orbit visualization tool. The applet was implemented using unreliable [[Two-body problem\|2-body methods]], and hence should not be used for determining accurate long-term trajectories (over several years or decades) or planetary encounter circumstances. For accurate ephemerides use the [[JPL Horizons On-Line Ephemeris System]] that handles the [[n-body problem]] using [[numerical integration]]. The Java applet is available by adding <code>&view=VOP</code> to the query string at the end of the body's URL. ==See also== Line 30 ⟶ 24: \|title=Solar System Objects at JPL Solar System Dynamics \|url=https://ssd.jpl.nasa.gov/ \|archive-url=https://web.archive.org/web/~~20210927182357~~20210919003544/https://ssd.jpl.nasa.gov/ \|url-status=live \|archive-date= ~~27 September~~ 2021-09-19 \|access-date=2021-09-27}}</ref> Line 37 ⟶ 31: ==External links== * [~~http~~https://ssd.jpl.nasa.gov/~~sbdb~~tools/sbdb_lookup.~~cgi JPL~~html Small-Body Database ~~browser~~Lookup] * [https://ssd.jpl.nasa.gov/tools/sbdb_query.html Small-Body Database Query] {{authority control}}