import type { SGP4ErrorOutput, SGP4Output } from './propagation'; /** * Classification of TLE * - U: unclassified * - C: classified * - S: secret */ export type Classification = 'U' | 'C' | 'S'; /** * Mode of operation AFSPC or Improved * - a: afspc * - i: improved */ export type OperationMode = 'a' | 'i'; /** * Method of orbit determination * - d: deep space * - n: near earth */ export type Method = 'd' | 'n'; /** TLE Data Interface */ export interface TLEData { name: string; number: number; class: Classification; id: string; date: string | Date; fdmm: number; sdmm: number; drag: number; ephemeris: number; esn: number; inclination: number; ascension: number; eccentricity: number; perigee: number; anomaly: number; motion: number; revolution: number; rms?: number; } /** Celestrak TLE Data Interface */ export interface TLEDataCelestrak { OBJECT_NAME: string; OBJECT_ID: string; EPOCH: string; MEAN_MOTION: number; ECCENTRICITY: number; INCLINATION: number; RA_OF_ASC_NODE: number; ARG_OF_PERICENTER: number; MEAN_ANOMALY: number; EPHEMERIS_TYPE: number; CLASSIFICATION_TYPE: string; NORAD_CAT_ID: number; ELEMENT_SET_NO: number; REV_AT_EPOCH: number; BSTAR: number; MEAN_MOTION_DOT: number; MEAN_MOTION_DDOT: number; RMS: string; DATA_SOURCE: string; } /** * # Satellite Orbit Class * * Input TLE example * STARLINK-1007 * 1 44713C 19074A 23048.53451389 -.00009219 00000+0 -61811-3 0 482 * 2 44713 53.0512 157.2379 0001140 81.3827 74.7980 15.06382459 15 */ export declare class Satellite { #private; init: boolean; name: string; number: number; class: Classification; id: string; date: Date; epochyr: number; epochdays: number; jdsatepoch: number; fdmm: number; sdmm: number; drag: number; ephemeris: number; esn: number; inclination: number; ascension: number; eccentricity: number; perigee: number; anomaly: number; motion: number; revolution: number; opsmode: OperationMode; rms?: number; isimp: number; method: Method; aycof: number; con41: number; cc1: number; cc4: number; cc5: number; d2: number; d3: number; d4: number; delmo: number; eta: number; argpdot: number; omgcof: number; sinmao: number; t2cof: number; t3cof: number; t4cof: number; t5cof: number; x1mth2: number; x7thm1: number; mdot: number; nodedot: number; xlcof: number; xmcof: number; nodecf: number; irez: number; d2201: number; d2211: number; d3210: number; d3222: number; d4410: number; d4422: number; d5220: number; d5232: number; d5421: number; d5433: number; dedt: number; del1: number; del2: number; del3: number; didt: number; dmdt: number; dnodt: number; domdt: number; e3: number; ee2: number; peo: number; pgho: number; pho: number; pinco: number; plo: number; se2: number; se3: number; sgh2: number; sgh3: number; sgh4: number; sh2: number; sh3: number; si2: number; si3: number; sl2: number; sl3: number; sl4: number; gsto: number; xfact: number; xgh2: number; xgh3: number; xgh4: number; xh2: number; xh3: number; xi2: number; xi3: number; xl2: number; xl3: number; xl4: number; xlamo: number; zmol: number; zmos: number; atime: number; xli: number; xni: number; /** * Constructor * @param data - TLE data or TLE string * @param initialize - initialize the object on creation */ constructor(data: TLEData | string, initialize?: boolean); /** API */ /** * propagate the satellite's position and velocity given a Date input * @param time - Date object * @returns - SGP4ErrorOutput or SGP4Output */ propagate(time: Date): SGP4ErrorOutput | SGP4Output; /** * time in minutes since epoch * @param time - time in minutes * @returns - satellite state at that time */ sgp4(time: number): SGP4ErrorOutput | SGP4Output; /** * Converts satellite state to an array that is readable by the GPU * @returns - satellite state in an array */ gpu(): number[]; } /** * Covnert Celestrak TLE data to a standard TLE data object * [JSON example](https://celestrak.org/NORAD/elements/supplemental/index.php?FORMAT=json) * @param data - Celestrak TLE data * @returns - TLE data */ export declare function convertCelestrak(data: TLEDataCelestrak): TLEData; //# sourceMappingURL=sat.d.ts.map