Orbital A: End December 2018-mid February 2019. OSIRIS-REx's first orbit will have a 1.0- to 1.5-kilometer radius (measured from Bennu's center) and will be in the same plane as the terminator (so, over the poles along the line separating day from night). The alignment with the terminator is to make it so there will be no net effect of solar radiation pressure on the spacecraft's orbit. During Orbital Phase A, the team will work on switching over from using stars as their navigational reference to using surface features as their navigational reference, which will be more precise.

Detailed survey: Baseball diamond: February-April 2019. Moving to a slightly greater distance (3.5 kilometers), OSIRIS-REx will take numerous photos of the asteroid from four locations (akin to the four bases surrounding the pitcher's mound in baseball, hence the "baseball diamond"). At the end of the detailed survey, they'll have a new, more detailed shape model; a global image mosaic with a pixel scale of 4 centimeters; and a "thematic map" showing regions of scientific interest and regions that might be hazardous to the spacecraft. Sequences of images taken during this period "will be released as public engagement products that will provide a sense of spacecraft flight over the asteroid."

Detailed survey: Equatorial stations: April-June 2019. More distance again (5 kilometers from the asteroid's center), to seven different positions over Bennu's equator. These data will help the team build models for how the surface of Bennu reflects light differently at different angles. This is called photometry. With this data set, the team will be able to correct images for solar illumination, to help them produce seamless photo mosaics. Once they have the photometry data set in hand, they'll be able to make color ratio maps, which should make subtle color variations on the asteroid much easier to see. They'll also make a map of the asteroid's thermal properties. In the long term, these maps will be important for geology research, but in the short term, it will help identify regions of interest and regions that are hazardous for sampling. The team is even prepared to produce a map of plumes coming from Bennu, though they call the discovery of plumes "low probability." At the end of the detailed survey phase, the team should have a list of as many as 12 candidate sample sites.

Orbital B: June-September 2019. Similar to Orbital phase A, OSIRIS-REx will be in a close, 1.0- to 1.5-kilometer orbit. The main goal of this phase will be mapping with the laser altimeter and radio tracking for mass and gravity studies. It will also survey the candidate landing sites. During this phase, the science team will develop data that will be returned to the spacecraft to support its autonomous guidance system, getting ready for the landing and sample grab. By the end of orbital phase B, the team will have downselected to two potential sample sites, one primary and one secondary.

Reconnaissance: September-December 2019. OSIRIS-REx will perform very close passes across the potential sample sites, as low as 225 meters above the surface. They will be able to see individual particles as small as 2 centimeters across.

Rehearsal: December 2019-June 2020. At least two rehearsals will put OSIRIS-REx partway through the steps of descending to the asteroid's surface to collect a sample, but neither is planned to actually contact the surface.

Sample Collection: July 2020. This will get a whole blog entry when the time is right.

Sample stowage: Once the mission is sure the spacecraft got a sample, they'll go through the process of moving the sample head into the sample return capsule and then severing the arm to allow the capsule to close.

Departure: March 2021.

Earth return: September 24, 2023, at 14:40 UTC. The long delay between departure and return is very convenient for the science team, who will make good use of that time writing papers.