‹Programming› 2024
Mon 11 - Fri 15 March 2024 Lund, Sweden
Wed 13 Mar 2024 11:45 - 12:15 at M:Teknodromen - Research Papers 1 Chair(s): Wolfgang De Meuter

Linear Temporal Logic (LTL) has been used widely in verification. Its importance and popularity have only grown with the revival of temporal logic synthesis, and with new uses of LTL in robotics and planning activities. All these uses demand that the user have a clear understanding of what an LTL specification means.

Despite the growing use of LTL, no studies have investigated the misconceptions users actually have in understanding LTL formulas. This paper addresses the gap with a first study of LTL misconceptions.

We study researchers’ and learners’ understanding of LTL in four rounds (three written surveys, one talk-aloud) spread across a two-year timeframe. Concretely, we decompose “understanding LTL” into three questions. A person reading a spec needs to understand what it is saying, so we study the mapping from LTL to English. A person writing a spec needs to go in the other direction, so we study English to LTL. However, misconceptions could arise from two sources: a misunderstanding of LTL’s syntax or of its underlying semantics. Therefore, we also study the relationship between formulas and specific traces.

We find several misconceptions that have consequences for learners, tool builders, and designers of new property languages. These findings are already resulting in changes to the Alloy modeling language. We also find that the English to LTL direction was the most common source of errors; unfortunately, this is the critical “authoring” direction in which a subtle mistake can lead to a faulty system. We contribute study instruments that are useful for training learners (whether academic or industrial) who are getting acquainted with LTL, and we provide a code book to assist in the analysis of responses to similar-style questions.

Our findings are grounded in the responses to our survey rounds. Round 1 used Quizius to identify misconceptions among learners in a way that reduces the threat of expert blind spots. Rounds 2 and 3 confirm that both additional learners and researchers (who work in formal methods, robotics, and related fields) make similar errors. Round 4 adds deep support for our misconceptions via talk-aloud surveys.

This work provides useful answers to two critical but unexplored questions: in what ways is LTL tricky and what can be done about it? Our survey instruments can serve as a starting point for other studies.

Wed 13 Mar

Displayed time zone: Amsterdam, Berlin, Bern, Rome, Stockholm, Vienna change

10:45 - 12:15
Research Papers 1Research Papers at M:Teknodromen
Chair(s): Wolfgang De Meuter Vrije Universiteit Brussel
10:45
30m
Talk
Let a Thousand Flowers Bloom: An Algebraic Representation for Edge GraphsVol. 8
Research Papers
Jack Liell-Cock University of Oxford, Tom Schrijvers KU Leuven
Link to publication DOI
11:15
30m
Talk
The Design Principles of the Elixir Type SystemVol. 8
Research Papers
Giuseppe Castagna CNRS; Université Paris Cité, Guillaume Duboc , José Valim Dashbit
Link to publication DOI
11:45
30m
Talk
Little Tricky Logic: Misconceptions in the Understanding of LTLVol. 7
Research Papers
Ben Greenman University of Utah, Tim Nelson Brown University, Sam Saarinen Brown University, Shriram Krishnamurthi Brown University
Link to publication DOI