Fig.1

Structure of digital pilot model

Fig.2

Digital pilot decision module

Fig.3

Adaptive pilot control module［25］

Fig.4

Structure of digital virtual flight simulation model

Fig.5

Ground-based configuration for an amphibious aircraft

Fig.6

Aircraft ground motion simulation model

Table 1

Longitudinal location designs of landing gears

Fig.7

Effect of wheel longitudinal location on turn-over tendency during takeoff and landing roll

Table 2

Touch-down state varying with final approach parameters selection

Fig.8

Effect of final approach airspeed selection on aircraft longitudinal motion characteristics during landing

Table 3

Lateral location design scheme of landing gears

Fig.9

Effect of wheel location on ground roll directional stability during crosswind landing

Fig.10

Effect of runway contamination on crosswind landing safety

Fig.11

Aircraft longitudinal motion stability range of pitch angle for water takeoff

Fig.12

Comparison of time-domain responses of water takeoff motion parameters for a large amphibious aircraft between calculation results and flight test data［8］

Table 4

Comparison between calculation results of typical water takeoff performance indicators and flight test data

Fig.13

Flowchart of airworthiness compliance evaluation based on HQRM

Table 5

Requirements of minimum handling qualities level in flight task with control authority degrading of rudder failure state［7］

Fig.14

Digital virtual flight simulation results of crosswind landing flight task with “control authority degrading of rudder” failure state［7］

Fig.15

Digital virtual flight simulation calculation model of PDR task

Fig.16

Schematic diagram of probe and drogue jointing

Fig.17

Structure of digital pilot model for PDR task［31］

Table 6

Flight quality grade objective evaluation criteria of PDR task［33］

Fig.18

Digital pilot pitch channel control model of PDR task

Fig.19

Boundary recommendation of flight quality assessment criteria for receiver aircraft［30］

Table 7

Subjective evaluation parameters and recommended value requirements of flight quality for receiver aircraft

Fig.20

Schematic diagram of start position for PDR task

Fig.21

Digital virtual flight simulation results of receiver aircraft response and tracking errors of PDR task

Fig.22

Time-domain of HQM-related parameters and QHQSF frequency domain response of swept input signal

Fig.23

Calculation flowchart for quantitative evaluation index of PIO

Fig.24

Comparison of typical motion parameters in roll attitude tracking task between calculations and human-in-the-loop tests

Fig.25

Suggestions on evaluation criteria of cross-heading Ⅲ PIO induced by landing configuration switching