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n_viable_trajectories
int64
1
11M
orbit_condition_code
int64
0
9
obs_flag
large_stringclasses
2 values
max_diameter_m
float64
1.2
5.74k
min_diameter_m
float64
0.27
1.28k
designation
large_stringlengths
4
10
observation_magnitude
float64
13.6
24
full_name
large_stringlengths
16
29
min_delta_v_kms
float64
3.39
12
min_mission_duration_days
int64
18
450
9,060
6
S
73
16
2010 PS66
23.69
(2010 PS66)
10.27
210
10,245
0
362
81
429389
23.92
429389 (2010 PR10)
8.399
130
5
7
37
8.3
2010 PH9
null
(2010 PH9)
11.417
354
2,609
1
94
21
2010 MB
22.39
(2010 MB)
10.097
330
24,374
8
49
11
2010 KV7
null
(2010 KV7)
8.524
282
776,043
2
103
23
2010 JK1
22.87
(2010 JK1)
4.839
106
603,708
0
121
27
2010 HA
23.92
(2010 HA)
6.319
114
685
0
262
59
2010 GP67
20.47
(2010 GP67)
10.261
178
184,326
7
32
7.1
2010 FY9
null
(2010 FY9)
6.35
66
53,031
2
65
14
2010 FV9
23.21
(2010 FV9)
8.005
226
1,315
7
S
30
6.6
2010 FM
20.65
(2010 FM)
10.157
154
51,821
7
S
56
13
2010 FT
22.24
(2010 FT)
7.911
210
196
6
S
92
21
2023 EQ
22.04
(2023 EQ)
11.093
338
36
7
S
34
7.6
2010 DE2
22.55
(2010 DE2)
11.336
362
8
8
51
11
2010 CP19
null
(2010 CP19)
11.372
346
2,005
7
34
7.6
2010 CJ18
null
(2010 CJ18)
9.312
330
20,202
0
282
63
2010 CE55
21.78
(2010 CE55)
9.064
154
111,351
2
166
37
2010 CD55
23.74
(2010 CD55)
8.301
242
283,179
6
S
38
8.5
2023 FP1
22.17
(2023 FP1)
6.406
42
27,601
6
25
5.5
2023 AS
null
(2023 AS)
7.399
114
518
7
S
98
22
2010 CB19
23.48
(2010 CB19)
11.065
378
7
0
703
157
453563
21.84
453563 (2010 BB)
11.73
354
313
7
54
12
2010 AR1
23.83
(2010 AR1)
11.205
226
1,239
3
28
6.3
2010 AL30
22.14
(2010 AL30)
10.904
378
68,320
6
31
6.9
2010 AN61
null
(2010 AN61)
7.837
298
17
0
351
78
2010 AF30
22.79
(2010 AF30)
11.815
402
1,693
7
25
5.5
2010 AG3
null
(2010 AG3)
10.672
266
18,067
7
S
68
15
2009 YS
23.98
(2009 YS)
8.711
178
1,077,818
6
S
20
4.4
2009 YR
21.91
(2009 YR)
4.643
50
477,268
7
89
20
2009 YF
23.73
(2009 YF)
5.63
74
12,299
7
S
45
10
2009 XZ6
23.66
(2009 XZ6)
8.802
178
1,519
0
526
118
490581
13.94
490581 (2009 WZ104)
9.766
130
56
6
71
16
2009 XP2
null
(2009 XP2)
11.693
370
22,093
7
13
2.9
2009 WW7
null
(2009 WW7)
9.357
266
400
7
S
51
11
2009 WV7
23.52
(2009 WV7)
11.168
258
539,192
6
S
17
3.8
2009 WR52
19.77
(2009 WR52)
5.298
146
17,334
6
195
44
2009 WM105
23.69
(2009 WM105)
9.12
138
91,389
6
17
3.8
2026 MC2
23.03
(2026 MC2)
7.037
34
309,778
5
8.6
1.9
2026 LB1
null
(2026 LB1)
6.053
34
19,900
8
S
37
8.3
2009 WG7
23.1
(2009 WG7)
9.233
154
2,696
7
S
62
14
2009 WG106
22.29
(2009 WG106)
9.736
114
363
9
S
54
12
2009 WF54
23.56
(2009 WF54)
11.27
234
3,593
8
16
3.5
2009 WD54
null
(2009 WD54)
10.715
194
3
0
272
61
2009 VT
23.1
(2009 VT)
11.937
354
267
6
49
11
2025 VE6
null
(2025 VE6)
10.687
114
159,378
8
S
62
14
2009 WC106
20.49
(2009 WC106)
5.824
186
655
8
S
35
7.8
2009 VM24
21.43
(2009 VM24)
10.483
346
14,162
6
S
103
23
2009 VS25
23.2
(2009 VS25)
10.276
346
323
9
15
3.3
2009 VA
null
(2009 VA)
10.394
338
152,545
6
51
11
2009 UZ87
22.75
(2009 UZ87)
8.317
146
381,362
2
160
36
2009 UY19
18.63
(2009 UY19)
5.079
98
1,261
6
72
16
2023 FS1
null
(2023 FS1)
10.612
234
2,155
7
S
68
15
2009 UX87
22.12
(2009 UX87)
10.385
178
2,098
0
388
87
523632
23.96
523632 (2009 UX17)
10.469
338
1,255
0
282
63
2009 UD2
22.38
(2009 UD2)
10.361
218
286,623
6
S
43
10
2009 UK20
23.84
(2009 UK20)
6.347
146
803,316
5
28
6.3
2009 UD
23.4
(2009 UD)
4.673
74
2,968
9
S
62
14
2009 UB
23.59
(2009 UB)
10.222
218
428,390
6
148
33
2009 TP
22.18
(2009 TP)
6.173
162
11
6
16
3.6
2009 TM8
null
(2009 TM8)
11.888
306
80,310
7
S
47
10
2009 TJ4
20.95
(2009 TJ4)
6.843
114
45,536
7
S
32
7.3
2009 TD8
23.83
(2009 TD8)
9.323
210
223,112
7
S
22
5
2009 TD17
23.54
(2009 TD17)
6.583
162
12
0
849
190
837134
23.63
837134 (2013 CQ35)
11.485
354
7,322
3
120
27
2022 WT11
22.51
(2022 WT11)
9.608
346
1,553
6
24
5.3
2022 WJ10
null
(2022 WJ10)
11.014
338
2
7
S
59
13
2007 RV12
19.94
(2007 RV12)
11.893
394
351
8
S
54
12
2009 SJ
23.53
(2009 SJ)
10.667
338
2,185
8
S
20
4.4
2009 SC170
23.33
(2009 SC170)
10.107
162
26,665
9
10
2.3
2009 SH1
null
(2009 SH1)
8.548
202
403
0
112
25
2009 RU1
21.45
(2009 RU1)
11.484
314
5,922
8
S
135
30
2009 RH
23.7
(2009 RH)
9.022
242
19,630
7
26
5.8
2009 QR
null
(2009 QR)
8.201
74
15,533
6
148
33
2009 QE34
22.99
(2009 QE34)
9.977
210
48,997
7
S
31
7
2022 YJ4
21.3
(2022 YJ4)
7.866
146
22,125
8
S
112
25
2009 PD
23.34
(2009 PD)
8.469
194
410,475
0
103
23
2009 OS5
22.28
(2009 OS5)
6.078
42
327
8
S
78
17
2009 KR4
22.95
(2009 KR4)
10.569
146
111
7
S
43
10
2008 YV32
20.55
(2008 YV32)
11.407
282
684
7
65
14
2016 DZ21
null
(2016 DZ21)
11.18
322
1,152
0
105
24
2009 HG
23.39
(2009 HG)
11.083
298
1,001,682
0
91
20
2009 HC
22.17
(2009 HC)
4.44
66
719
6
57
13
2025 QB5
null
(2025 QB5)
10.205
98
19,477
7
S
65
14
2009 FX4
19.35
(2009 FX4)
9.479
234
29
7
S
17
3.8
2009 FK
23.38
(2009 FK)
11.877
210
730
9
27
6
2009 ET
null
(2009 ET)
11.07
186
28
7
32
7.3
2009 FE19
null
(2009 FE19)
11.521
346
157
0
416
93
465617
20.86
465617 (2009 EK1)
10.244
330
483
8
22
4.9
2009 EH1
null
(2009 EH1)
10.365
362
67
0
684
153
457663
20.23
457663 (2009 DN1)
11.413
170
21
8
23
5.3
2009 DC45
null
(2009 DC45)
11.711
354
1,871
6
123
28
2009 DC1
23.99
(2009 DC1)
11.214
330
487,542
0
108
24
2009 CV
19.05
(2009 CV)
5.949
50
6,973
1
107
24
2009 CE
23.07
(2009 CE)
9.934
154
1,105,655
2
74
17
2009 BW2
23.25
(2009 BW2)
5.154
90
484
7
34
7.6
2009 BO5
null
(2009 BO5)
11.104
266
24,468
0
300
67
528807
22.72
528807 (2009 BL71)
8.914
306
37
7
27
6
2009 BF58
null
(2009 BF58)
11.648
282
7,281
7
S
62
14
2009 BG
23.76
(2009 BG)
9.581
314
15,891
8
S
63
14
2013 CN118
23.18
(2013 CN118)
9.805
330
End of preview. Expand in Data Studio

NASA NHATS Near-Earth Accessible Asteroids

Rosetta spacecraft approaching Comet 67P/Churyumov-Gerasimenko

Credit: NASA/ESA

Part of a dataset collection on Hugging Face.

Dataset description

Near-Earth asteroids accessible for human space flight missions, from NASA JPL's NHATS study. Includes delta-v requirements and trajectory counts.

The NHATS study identifies near-Earth asteroids that could be reached by crewed spacecraft with relatively low delta-v (velocity change) requirements. These are potential targets for human exploration missions, sample return, and in-situ resource utilisation (ISRU).

Each asteroid in this dataset has at least one viable round-trip trajectory with total delta-v under 12 km/s, total mission duration under 450 days, and stay time of at least 8 days. The dataset is continuously updated as new asteroids are discovered and orbits are refined.

The delta-v requirement is the single most important metric for mission feasibility in space exploration. Unlike terrestrial travel where distance dominates cost, spaceflight cost scales with the velocity change needed to match orbits with a target. A round-trip delta-v under 6 km/s -- comparable to what is needed to reach the lunar surface and return -- makes an asteroid reachable with existing or near-term propulsion technology. The most accessible targets in this dataset have delta-v requirements below 5 km/s, making them energetically easier to reach than the Moon despite being millions of kilometers away.

Mission duration and the number of viable trajectories provide complementary selection criteria. A target with thousands of viable trajectories offers scheduling flexibility -- crucial for mission planning that must account for launch window constraints, spacecraft readiness, and orbital mechanics.

These asteroids are also prime candidates for in-situ resource utilization (ISRU) -- extracting water, metals, and volatiles from asteroid material to support deep-space operations. The combination of low delta-v accessibility and potential resource richness makes NHATS targets central to long-term plans for a sustained human presence beyond low Earth orbit.

This dataset is suitable for tabular regression tasks.

Schema

Column Type Description Sample Null %
n_viable_trajectories int64 Total number of viable round-trip trajectory opportunities found by NHATS, counting all launch dates and mission profiles; higher = more scheduling flexibility 9060 0.0%
orbit_condition_code int64 MPC orbit uncertainty metric (0-9); 0 = well-determined multi-opposition orbit, 9 = very poorly constrained single-opposition arc; affects reliability of accessibility predictions 6 0.0%
obs_flag str Observation flag from NHATS indicating whether the object is currently observable or has upcoming observing opportunities S 0.2%
max_diameter_m float64 Estimated upper bound on effective diameter in meters, derived from absolute magnitude H and assumed minimum albedo; null when H magnitude is unavailable 73.0 0.0%
min_diameter_m float64 Estimated lower bound on effective diameter in meters, derived from absolute magnitude H and assumed maximum albedo; null when H magnitude is unavailable 16.0 0.0%
designation str Primary MPC asteroid designation (e.g., '2021 PH27', '1999 AO10') 2010 PS66 0.0%
observation_magnitude float64 Observed visual magnitude at the time of discovery or most recent apparition; null when not available; fainter (larger) values indicate smaller or more distant objects 23.69 40.7%
full_name str Full formatted name/designation including any IAU proper name (2010 PS66) 0.0%
min_delta_v_kms float64 Minimum total delta-v (Earth departure + outbound transfer + return) for any viable round-trip trajectory in km/s; <6 km/s = energetically comparable to reaching the lunar surface; NHATS search limit is 12 km/s 10.27 0.0%
min_mission_duration_days int64 Minimum total round-trip mission duration in days across all viable trajectories; NHATS search limit is 450 days; shorter durations preferred for crewed missions due to life support and radiation constraints 210 0.0%

Quick stats

  • 6,995 accessible asteroids
  • Mean minimum delta-v: 9.04 km/s
  • Lowest delta-v target: 3.39 km/s
  • 705 targets with delta-v < 6 km/s

Usage

from datasets import load_dataset

ds = load_dataset("juliensimon/nhats-accessible-asteroids", split="train")
df = ds.to_pandas()
from datasets import load_dataset

ds = load_dataset("juliensimon/nhats-accessible-asteroids", split="train")
df = ds.to_pandas()

# Easiest targets to reach
easy = df.nsmallest(20, "min_delta_v_kms")
print(easy[["designation", "min_delta_v_kms", "min_mission_duration_days", "n_viable_trajectories"]])

# Targets with many trajectory options
flexible = df.nlargest(20, "n_viable_trajectories")
print(flexible[["designation", "n_viable_trajectories", "min_delta_v_kms"]])

# Delta-v distribution
import matplotlib.pyplot as plt
fig, ax = plt.subplots(figsize=(10, 5))
ax.hist(df["min_delta_v_kms"].dropna(), bins=50)
ax.set_xlabel("Min delta-v (km/s)")
ax.set_ylabel("Count")
ax.set_title("NHATS Asteroid Delta-v Distribution")
plt.show()

Data source

https://cneos.jpl.nasa.gov/nhats/

If you find this dataset useful, please consider giving it a like on Hugging Face. It helps others discover it.

About the author

Created by Julien Simon — AI Operating Partner at Fortino Capital. Part of the Space Datasets collection.

Citation

@dataset{nhats_accessible_asteroids,
  title = {NASA NHATS Near-Earth Accessible Asteroids},
  author = {juliensimon},
  year = {2026},
  url = {https://huggingface.co/datasets/juliensimon/nhats-accessible-asteroids},
  publisher = {Hugging Face}
}

License

CC-BY-4.0

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