Table 1 The HMI system details in this study and some systems proposed in existing literature.

From: Improving lung cancer pathological hyperspectral diagnosis through cell-level annotation refinement

Reference

Spectral range (nm)

Spectral resolution (nm)

Spatial resolution (pixel)

Acquisition speed

Core device

Applications

Public dataset

12

400–1000

2.5

400 × 800

Hyperspectral camera, Microscope system

Cervical carcinoma

19

470–720

2.9

2048 × 2048

Hyperspectral camera, Microscope system

Head and neck cancer

20

550–1000

7.5

1024 × 1024

CCD, AOTF, Microscope system

Melanoma

31

400–800

22

1536 × 1024

55 s

CCD, LVF, Microscope system

Cytogenetics

32

420–700

10

768 × 896

CCD, LCTF, Microscope system

Breast cancer

33

420–720

2

1392 × 1040

<60 s

CCD, SSTF, Microscope system

Prostatic cancer

34

420–720

5

1360 × 1024

CCD, LCTF, Microscope system

Gastric cancer

35

410–910

2.5

716 × 596

30 s

Hyperspectral camera, Microscope system

Gastric cancer

36

465–905

3

2048 × 985

Hyperspectral camera, Microscope system

Skin cancer

Ours

420–750

5

3088 × 2064

<20 s

CMOS, LCTF, Microscopic objective

Lung cancer

  1. CCD, charge-coupled device; LVF, linear variable filter; SSTF, solid-state tunable filter; LCTF, liquid crystal tunable filter; AOTF, acoustic-optical tunable filter; CMOS, complementary metal oxide semiconductor
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