Stem dock$ (all stems)

14 papers:

SAC-2015-HublerRFS #data flow #named #using

P-SaMI: a data-flow pattern to perform massively-parallel molecular docking experiments using a fully-flexible receptor model (PH, DDAR, JEF, ONdS), pp. 54–57.

DHM-HB-2013-LiWZYHZ #complexity #variability

Changes in Heart Rate Variability during Manual Controlled Rendezvous and Docking with Task Complexity (PL, BW, YZ, ZY, WH, XZ), pp. 86–92.

DHM-HB-2013-WangTLCTL #architecture #behaviour #modelling

Cognitive Behavior Modeling of Manual Rendezvous and Docking Based on the ACT-R Cognitive Architecture (CW, YT, YL, SC, ZT, JL), pp. 143–148.

ICEIS-v3-2013-SzirbikB #architecture #network

Discovering the EIS Architecture that Supports Hub-and-Spoke Freight Transportation Networks Operating in a Cross Dock Mode (NBS, PB), pp. 388–395.

SAC-2012-Koohi-MoghadamR #difference #evolution

Molecular docking with opposition-based differential evolution (MKM, ATR), pp. 1387–1392.

DHM-2011-JiangWTXW #case study #evaluation #performance

Study on Synthetic Evaluation of Human Performance in Manually Controlled Spacecraft Rendezvous and Docking Tasks (TJ, CW, ZT, YX, ZW), pp. 387–393.

DHM-2011-WuHYNH #parametricity #using

Using Physiological Parameters to Evaluate Operator’s Workload in Manual Controlled Rendezvous and Docking (RVD) (BW, FH, ZY, JN, WH), pp. 426–435.

CASE-2010-GibsonM #geometry #integration

Geometric integration of impact during an orbital docking procedure (CG, TDM), pp. 928–932.

CASE-2008-KimCY #mobile

Fusion of direction sensing RFID and sonar for mobile robot docking (MK, NYC, WY), pp. 709–714.

CASE-2008-RohPSYC0LC #flexibility #using

Flexible docking mechanism using combination of magnetic force with error-compensation capability (SgR, JHP, YKS, KY, MC, HSK, HL, HRC), pp. 697–702.

CHI-2000-MasliahM #empirical

Measuring the allocation of control in a 6 degree-of-freedom docking experiment (MRM, PM), pp. 25–32.

ICSE-1999-HallHW #approach #deployment #using

A Cooperative Approach to Support Software Deployment Using the Software Dock (RSH, DH, ALW), pp. 174–183.

SAC-1995-GopalanHSDS #fuzzy #problem #search-based

Fuzzy genetic controllers for the autonomous rendezvous and docking problem (VG, AH, MRS, RWD, BS), pp. 532–536.

SAC-1994-XiaoW #algorithm #search-based #using

Molecular docking using genetic algorithms (YLX, DEW), pp. 196–200.