Hayabusa 2 (Хаябуса-2), Procyon – H-IIA F26 – Танэгасима – 03.12.2014 04:22:04 UTC

Автор Космос-3794, 13.08.2010 10:49:07

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tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 1 ч. назад

[Touchdown 1 Rehearsal 1 = TD1-R1] The first rehearsal operation for the initial touchdown has begun. Preparations began yesterday (Sept. 10) and today Hayabusa2 began its descent. At 14:39 JST, the check prior to beginning the descent operation (Gate 1) was made & judgement = GO

tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 21 мин. назад

[TD1-R1] Today (Sept. 11) at 15:46 JST, Hayabusa2 was confirmed to have began the descent from the home position (about 20km altitude) as planned. The onboard time when the descent started was 15:27.

tnt22

http://www.hayabusa2.jaxa.jp/en/news/status/
ЦитироватьSep. 11, 2018

★ Hayabusa2 status(the week of 2018.09.03)★

Last week, we started moving from "BOX-B" and returned to the home position for the spacecraft ("BOX-A") as scheduled. We have continued to observe the asteroid everyday using the onboard cameras, while frantically preparing for the first touchdown rehearsal that will begin from Sept. 11 and the other operations that will follow. This next decent operation will take about two days to complete, but the preparatory work is taking several dozen times that. To get the best results from this preparation, we need to concentrate through this next week.

2018.09.11. T.S.

tnt22

http://www.hayabusa2.jaxa.jp/en/topics/20180911e/
ЦитироватьSchedule for Touchdown 1 Rehearsal 1 (TD1-R1)

The first touchdown by Hayabusa2 to collect samples fr om the asteroid surface is planned for the end of October. The first rehearsal for this operation will be held from September 10 – 12. "Touchdown 1 Rehearsal 1" is abbreviated to TD1-R1. At TD1-R1, the Hayabusa2 will approach the surface of Ryugu to an altitude of less than 40 m. The spacecraft will then rise without landing. The purpose of this rehearsal is to monitor the operation of the spacecraft during touchdown and investigate the safety of the touchdown candidate sites by imaging the surface of Ryugu in their vicinity from a low altitude. The schedule for the TD1-R1 operation is shown in the table below. The actual operation will occur while assessing the situation at that time, so do note that procedures may not always be on schedule.

Touchdown 1 Rehearsal 1(TD1-R1)main schedule

[TH]
Date & Time(UTC)[/TH][TH]Date & Time(JST)[/TH][TH]Spacecraft speed (cm/s)[/TH][TH]HP altitude (m)[/TH][TH]Near-point altitude (m)[/TH][TH]Event[/TH][/TR][TR][TD]9/11 05:25[/TD][TD]9/11 14:25[/TD][TD][/TD][TD][/TD][TD][/TD][TD]Gate1 confirmation (confirmation before start of descent)[/TD][/TR][TR][TD]9/11 06:25[/TD][TD]9/11 15:25[/TD][TD]-40[/TD][TD]20,000[/TD][TD][/TD][TD]Descent begins[/TD][/TR][TR][TD]9/11 11:15[/TD][TD]9/11 20:15[/TD][TD][/TD][TD]13,000[/TD][TD][/TD][TD][/TD][/TR][TR][TD]9/11 16:45[/TD][TD]9/12 01:45[/TD][TD]-10[/TD][TD]5,000[/TD][TD][/TD][TD]Decelerate descent speed ΔV[/TD][/TR][TR][TD]9/11 17:05[/TD][TD]9/12 02:05[/TD][TD][/TD][TD][/TD][TD][/TD][TD]Gate2 confirmation (descent deceleration ΔV confirmation)[/TD][/TR][TR][TD]9/11 19:45[/TD][TD]9/12 04:45[/TD][TD][/TD][TD]4,000[/TD][TD][/TD][TD][/TD][/TR][TR][TD]9/12 01:20[/TD][TD]9/12 10:20[/TD][TD][/TD][TD]2,000[/TD][TD][/TD][TD][/TD][/TR][TR][TD]9/12 02:50[/TD][TD]9/12 11:50[/TD][TD][/TD][TD][/TD][TD]1,000[/TD][TD][/TD][/TR][TR][TD]9/12 04:15[/TD][TD]9/12 13:15[/TD][TD][/TD][TD][/TD][TD]500[/TD][TD][/TD][/TR][TR][TD]9/12 04:15[/TD][TD]9/12 13:15[/TD][TD][/TD][TD][/TD][TD][/TD][TD]Gate3 confirmation[/TD][/TR][TR][TD]9/12 05:25[/TD][TD]9/12 14:25[/TD][TD][/TD][TD][/TD][TD]below 40m[/TD][TD]Reach target altitude[/TD][/TR][TR][TD]9/12 05:25[/TD][TD]9/12 14:25[/TD][TD]+70[/TD][TD][/TD][TD][/TD][TD]Withdraw ΔV[/TD][/TR][TR][TD]9/12 05:50[/TD][TD]9/12 14:50[/TD][TD][/TD][TD][/TD][TD][/TD][TD]Gate5 confirmation(soundness check)[/TD][/TR][TR][TD]9/12 06:40[/TD][TD]9/12 15:40[/TD][TD][/TD][TD][/TD][TD][/TD][TD]Gate6 confirmation(confirmation of ΔV in order to return to home position)[/TD][/TR][TR][TD]9/12 07:40[/TD][TD]9/12 16:40[/TD][TD][/TD][TD][/TD][TD]6,000[/TD][TD]Home Position return confirmed viaΔV measurement.[/TD][/TR][/TABLE]Caution:
    [/li]
  • Time: Approximate schedule time (in 5-minute increments). There is a possibility that this may change during operation. The time is the onboard time, so confirmation of the event is the radiowave propagation time of about 17 minutes later.
  • Spacecraft speed: This is the speed relative to the asteroid (minus is towards the asteroid, positive is away). Numerical value is displayed only when speed control is performed. After a speed control operation, the speed changes due to the gravitational force of Ryugu and other celestial bodies.
  • HP altitude:Distance to the center of Ryugu
  • Near point altitude:Distance to the surface of Ryugu.
  • Gate: These are operation checkpoints wh ere it is judged whether to proceed on the basis of the situation of the spacecraft and ground station.
Hayabusa2 project
2018.09.11
Прим. Из таблицы исключены сеансы связи с КА

tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 8 ч. назад

[TD1-R1] Images from the Optical Navigation Camera Wide Angle (ONC-W1) are now being released in real time. Come and watch our descent!

http://www.hayabusa2.jaxa.jp/en/galleries/onc/nav20180911/ ...

tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 6 ч. назад

[TD1-R1] September 11 at 18:40 JST, the altitude of Hayabusa2 is about 15 km. The descent continues.

2 ч. назад

[TD1-R1] Sept. 11 at 20:50 JST: Altitude is about 12 km. Communication continues via DSN Madrid. The distance to Hayabusa2 is approximately 313 million km, giving a round-trip time for radiowaves of about 35 minutes.

2 ч. назад

[TD1-R1] Sept. 11 at 22:20 JST: the altitude has been confirmed to have decreased to about 10 km. It is late at night, but there are more than 30 people connected with Hayabusa2 working in the control room and operation room!

tnt22

Цитировать3D Visualization of Asteroid Ryugu

NEW HORIZONS v2.0

Опубликовано: 11 сент. 2018 г.

This simulated flyover was created using data taken by JAXA's Hayabusa2 spacecraft
https://www.youtube.com/watch?v=DDTBBggihiwhttps://www.youtube.com/watch?v=DDTBBggihiw (0:45)

tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 11 ч. назад

[TD1-R1] September 12 at 2:32 JST: Check that the speed of Hayabusa2 has slowed down as planned (Gate2), and confirm that there are no problems. Judgement is 'Go' and the operation proceeds as the spacecraft continues its descent.

9 ч. назад

[TD1-R1] Sept 12 at 07:50 JST: Hayabusa2 has descended to an altitude of 2500m. It is now the third day since the TD1-R1 operation began. On the JAXA Sagamihara campus, clouds are spreading but this morning is sunny. The descent continues, aiming for an altitude of below 40m.

5 ч. назад

[TD1-R1] Sept 12 at 10:40 JST: Hayabusa2 has descended to an altitude of about 1500m. This is the image of Ryugu received at around 10:33. We are continuing to deliver images in real time, so do keep an eye on our gallery! http://www.hayabusa2.jaxa.jp/en/galleries/onc/nav20180911/ ...



4 ч. назад

[TD1-R1] Currently, our real time navigation image gallery has halted. Please wait as we work on the problem. Operation of the spacecraft is continuing normally.

tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 27 мин. назад

[TD1-R1] Hayabusa2 is now rising after stopping its descent. Spacecraft status is normal. At an altitude of about 600m, descent was autonomously stopped, likely due to the distance measurement by the laser altimeter (LIDAR) becoming impossible due to the low reflectance of Ryugu.

tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 27 мин. назад

[TD1-R1] The spacecraft is now returning to the home position (about 20km from the centre of Ryugu). From tomorrow, we will revise the descent procedure, including reviewing the LIDAR settings.

tnt22

http://www.hayabusa2.jaxa.jp/en/topics/20180912e/
ЦитироватьRegarding Touchdown 1 Rehearsal 1 (TD1-R1)

The first operation rehearsal for the first touchdown of Hayabusa2 began on September 10 and during September 11, the spacecraft descended towards Ryugu. Today (September 12), the spacecraft was approaching the planned lowest altitude in the descent when the spacecraft autonomously stopped descending at about 600 m, and started to rise. The cause was that the laser altimeter (LIDAR) became unable to measure the distance between the spacecraft and surface of the asteroid. LIDAR measures distance by reflecting a laser from the asteroid surface. A probable reason for this measurement becoming impossible is the low reflectance of the surface of Ryugu.

The condition of the spacecraft is normal and is today returning to the home position (about 20 km from the asteroid center). From tomorrow, we plan to revise the descent procedure, including a review of the LIDAR settings.

Hayabusa2 project
2018.09.12


tnt22

ЦитироватьHAYABUSA2@JAXA‏ @haya2e_jaxa 6 ч. назад

[TD1-R1] Last navigation image (ground receiving time: UTC 2018-09-12 03:58 ) taken when the distance to Ryugu's surface was ~635m. The image top is Ryugu's south pole, the bright side on the left is due to the opposition effect & within it is the black dot shadow of Hayabusa2!


SashaBad

При следующих экспедициях на кометы/астероиды, необходимо рассеивать в район предполагаемого места посадки стандартные отражатели. Значительно облегчится возможность определения места положения аппаратов относительно изучаемых объектов.
Так или иначе мы всё-таки будем там.

Pirat5

О! Это уже будет Hayabusa3!
 
Hayabusa2 – исправление Hayabusa1
Hayabusa3 – исправление Hayabusa2

SashaBad

Цитироватьtnt22 пишет:
ЦитироватьHAYABUSA2@JAXA ‏ @haya2e_jaxa 6 ч. назад
[TD1-R1] Last navigation image (ground receiving time: UTC 2018-09-12 03:58 ) taken when the distance to Ryugu's surface was ~635m. The image top is Ryugu's south pole, the bright side on the left is due to the opposition effect & within it is the black dot shadow of Hayabusa2!

Если я правильно понял -  яркая область с левой стороны связана с эффектом противостояния и внутри него - черная точка тени Hayabusa2

Не совсем понимаю, как такое изображение получили.
Если тень легла левее центральной оси изображения, то солнце должно быть правее, и соответственно лучше должна быть освещена правая сторона. 
На изображении всё наоборот - максимально освещена левая часть. Чем правее, тем менее освещённость.
Так может быть только если солнце слева. Тогда тень не от Hayabusa, а от другого объекта который расположен между солнцем и Ryugu.

Может кто-то подсказать, как этот ребус расшифровать? :)
Так или иначе мы всё-таки будем там.

Григорий Разгон

ЦитироватьSashaBad пишет:
Тогда тень не от Hayabusa, а от другого объекта который расположен между солнцем и Ryugu.
Это дополнительная опасность для маневрирования. Неужели недосмотрели "спутник" астероида?

opinion

ЦитироватьSashaBad пишет:

Может кто-то подсказать, как этот ребус расшифровать?  :)  
Вы же сами написали "яркая область с левой стороны связана с эффектом противостояния". Обычно это называют "оппозиционный эффект".
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