Stem fitt$ (all stems)

22 papers:

HCI-IT-2015-MacKenzie #throughput

Fitts’ Throughput and the Remarkable Case of Touch-Based Target Selection (ISM), pp. 238–249.

HCI-IT-2015-MurataMF #modelling #performance

Effects of Target Shape and Display Location on Pointing Performance by Eye-Gaze Input System — Modeling of Pointing Time by Extended Fitts’ Law (AM, MM, DF), pp. 94–106.

CHI-2013-BiLZ #modelling

FFitts law: modeling finger touch with fitts’ law (XB, YL, SZ), pp. 1363–1372.

CHI-2012-Hutchings #multi

An investigation of Fitts’ law in a multiple-display environment (DH), pp. 3181–3184.

CHI-2012-ZhangZF #2d

Extending Fitts’ law to account for the effects of movement direction on 2d pointing (XZ, HZ, WF), pp. 3185–3194.

CHI-2011-BlanchO #benchmark #metric #paradigm

Benchmarking pointing techniques with distractors: adding a density factor to Fitts’ pointing paradigm (RB, MO), pp. 1629–1638.

CHI-2011-GuiardOP #fault #trade-off

Fitt’s law as an explicit time/error trade-off (YG, HBO, STP), pp. 1619–1628.

CHI-2011-RohsOS #interactive #lens #validation

Interaction with magic lenses: real-world validation of a Fitts’ Law model (MR, AO, TS), pp. 2725–2728.

CHI-2009-Guiard #consistency #design #distance #problem

The problem of consistency in the design of Fitts’ law experiments: consider either target distance and width or movement form and scale (YG), pp. 1809–1818.

HIMI-II-2009-OkadaAF

Investigation on Relation between Index of Difficulty in Fitts’ Law and Device Screen Sizes (HO, TA, RF), pp. 423–429.

CHI-2008-MacKenzieI #throughput #trade-off

Fitts’ throughput and the speed-accuracy tradeoff (ISM, PI), pp. 1633–1636.

CHI-2008-WobbrockCHM #fault

An error model for pointing based on Fitts’ law (JOW, EC, SH, ISM), pp. 1613–1622.

CHI-2005-Ahlstrom #modelling #using

Modeling and improving selection in cascading pull-down menus using Fitts’ law, the steering law and force fields (DA), pp. 61–70.

CHI-2003-AccotZ #modelling

Refining Fitts’ law models for bivariate pointing (JA, SZ), pp. 193–200.

CHI-1999-GuiardBM #multi #navigation #precise

Navigation as Multiscale Pointing: Extending Fitts’ Model to Very High Precision Tasks (YG, MBL, DM), pp. 450–457.

HCI-CCAD-1999-MurataFAI #2d #effectiveness

Extending effective target width in Fitt’s law to two-dimensional pointing task (AM, MF, YA, HI), pp. 1236–1240.

HCI-EI-1999-SchmittO #using

Calculation of Totally Optimized Button Configurations Using Fitts’ Law (AS, PO), pp. 392–396.

CHI-1998-FriedlanderSM #exclamation

Bullseye! when Fitts’ Law Doesn’t Fit (NF, KS, MMM), pp. 257–264.

CHI-1997-AccotZ #human-computer #modelling

Beyond Fitts’ Law: Models for Trajectory-Based HCI Tasks (JA, SZ), pp. 295–302.

CHI-1995-KabbashB #using

The “Prince” Technique: Fitts’ Law and Selection Using Area Cursors (PK, WB), pp. 273–279.

CHI-1992-MacKenzieB #2d

Extending Fitts’ Law to Two-Dimensional Tasks (ISM, WB), pp. 219–226.

CHI-1990-GillanHARM #how #question

How does Fitts’ law fit pointing and dragging? (DJG, KLH, SA, MR, LM), pp. 227–234.