Requirements Perception Gap across Stakeholders: A Comparative Survey of Aged Care Digital Health Software

Anuradha Madugalla; Elizabeth Manias; John Grundy; Yuqing Xiao

arxiv: 2605.21495 · v1 · pith:5K624MO2new · submitted 2026-04-16 · 💻 cs.SE · cs.HC

Requirements Perception Gap across Stakeholders: A Comparative Survey of Aged Care Digital Health Software

Yuqing Xiao , John Grundy , Anuradha Madugalla , Elizabeth Manias This is my paper

Pith reviewed 2026-05-22 01:14 UTC · model grok-4.3

classification 💻 cs.SE cs.HC

keywords requirements engineeringaged caredigital healthstakeholder perspectivesnon-functional requirementssurvey studysoftware development

0 comments

The pith

Software developers overestimate user satisfaction with ease of use and responsiveness in aged care digital health tools while pushing advanced features that users do not prioritize.

A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.

The paper establishes a significant requirements gap by comparing how older adults, caregivers, and software developers view current and desired features in aged care digital health software. Developers focus on advanced functional capabilities and believe users are more satisfied with core non-functional aspects like ease of use than the users themselves report. Users instead emphasize simplicity, reliability, and basic functionality. A sympathetic reader would care because closing this gap could lead to software that older adults and caregivers actually adopt and benefit from in daily care settings.

Core claim

Our analysis reveals a significant 'Requirements Gap'. Software developers tend to prioritise advanced features and functional requirements, significantly overestimating user satisfaction with core NFRs such as ease of use and responsiveness. Conversely, developers were more critical of existing functional features compared to older adults and caregivers, who prioritised simplicity and reliability over feature density.

What carries the argument

A mixed-methods survey of 249 participants (103 older adults, 41 caregivers, 105 developers) that compares quantitative satisfaction ratings with qualitative responses on functional and non-functional requirements.

If this is right

Future co-design processes can target the specific points where developer and user priorities diverge on simplicity versus feature density.
Near-term product decisions can shift emphasis toward improving responsiveness and ease of use rather than adding advanced functions.
Privacy-by-design recommendations can be shaped by the shared concerns across all three groups on core reliability needs.
Alignment on basic functional requirements can be strengthened while reducing developer focus on features that users rate as lower priority.

Where Pith is reading between the lines

These are editorial extensions of the paper, not claims the author makes directly.

Addressing the gap may increase actual usage rates of digital tools in aged care settings beyond what current satisfaction surveys predict.
Similar perception gaps could exist in other user groups with accessibility needs, such as patients managing chronic conditions.
Developers might test revised requirement gathering methods that directly incorporate user ratings of non-functional attributes early in design.

Load-bearing premise

The survey participants and questionnaire items drawn from a prior review accurately represent the views of the larger stakeholder populations without major selection or framing bias.

What would settle it

A follow-up study with a larger and more diverse sample that finds no statistically significant differences in how developers versus users rate satisfaction with ease of use and responsiveness would undermine the gap claim.

Figures

Figures reproduced from arXiv: 2605.21495 by Anuradha Madugalla, Elizabeth Manias, John Grundy, Yuqing Xiao.

**Figure 1.** Figure 1: The workflow of recruit, include, and exclude participants for surveys any time. The survey instrument was organised around three requirement constructs aligned with requirements engineering categories: • Functional requirements (FR): Core features that define specific behaviour, functions, and user tasks. FRs specify actions, features, and behaviours. • Non-functional requirements (NFR): Requirements that… view at source ↗

**Figure 2.** Figure 2: Functional requirements rated as satisfactory: Current satisfaction levels across stakeholder groups, showing proportion distributions. of frustration. Older adults reported that slow or inconsistent system feedback discouraged continued use. OA22 explained, “When I press a button, it should react right away — if it’s slow, I stop trusting it.” FC01 confirmed this sentiment, “. . . delayed responses often … view at source ↗

**Figure 3.** Figure 3: Non-Functional requirements rated as satisfactory: Current satisfaction levels across stakeholder groups, showing proportion distributions. 4.2.1. Unsatisfied Functional Requirements Medication and Safety Support Medication and safety support emerged as a widely recognised but inconsistently implemented requirement across stakeholder groups. As shown in [PITH_FULL_IMAGE:figures/full_fig_p013_3.png] view at source ↗

**Figure 4.** Figure 4: Functional requirements rated as unsatisfactory: Current satisfaction levels across stakeholder groups, showing proportion distributions. to spend a lot to adapt their homes.” Dev27 commented, “We need to make users feel guided through their exercises, not just watching a silent video.” Overall, these findings highlight a gap between caregivers’ optimism and users lived experience, suggesting that future r… view at source ↗

**Figure 5.** Figure 5: Non-Functional requirements rated as unsatisfactory: Current satisfaction levels across stakeholder groups, showing proportion distributions. connects with other devices. It could bring all the data together (in one place) so I can see my overall health." Brain Training Brain training tools include memory games and cognitive exercises. Older adults showed mixed reactions, with 40% neutral, 25% “somewhat he… view at source ↗

**Figure 6.** Figure 6: Data Collection Methods Trustworthy Reported by Older Adults: Who Older Adults want to share data with vs How Comfort Older Adults are to share 4.2.2. Unsatisfied Non-Functional Requirements Socio-economic Support Socio-economic support functions were rated lowest overall, reflecting a critical blind spot in design ( [PITH_FULL_IMAGE:figures/full_fig_p016_6.png] view at source ↗

**Figure 7.** Figure 7: Frequency of Participants-Reported Functional Requirements in Open-ended Questions: Current Feedback vs Future Priority Note. These were general, non-leading questions asking participants to identify what they considered most important. The frequency counts reflect participants’ primary areas of focus. RQ2 Answer Summary Collectively, these findings suggest that developers have largely been “going for the … view at source ↗

**Figure 8.** Figure 8: Current Satisfaction of Non-Functional Requirements among Stakeholder Groups: Proportion Distribution Stacked Bar Chart and Likert Scale Means (95% CI) Note. These were general, non-leading questions asking participants to identify what they considered most important. The frequency counts reflect participants’ primary areas of focus. “Vital Signs and Health Monitoring” emerged as the most frequently mentio… view at source ↗

read the original abstract

We sought to explore and compare the perspectives of three key stakeholder groups: older adults, caregivers (formal health providers and informal caregivers), and digital health software developers on key functional and non-functional requirements. We conducted a survey, designed based on the findings from an existing systematic review, to gather and analyse data related to the three stakeholder groups' (dis)satisfaction with current aged care digital health software and their views on key future aged care software requirements. A mixed-methods survey approach integrated quantitative questionnaire data and qualitative open-ended responses from a total sample of 249, comprised of older adults (103), formal and informal caregivers (41), and software developers (105). Data analysis utilised a mixed methods approach, employing inferential statistics to compare group satisfaction levels and thematic analysis for qualitative open-ended responses. Our analysis reveals a significant "Requirements Gap". Software developers tend to prioritise advanced features and functional requirements, significantly overestimating user satisfaction with core NFRs such as ease of use and responsiveness. Conversely, developers were more critical of existing functional features compared to older adults and caregivers, who prioritised simplicity and reliability over feature density. By combining quantitative and qualitative analysis, we identified where stakeholder priorities align and where they diverge across functional and non-functional requirements in both the current designs they used and the future designs they desire. Our findings present a stakeholder gap analysis that can guide future co-design processes, near-term product decisions, and privacy-by-design recommendations in aged care digital health.

Editorial analysis

A structured set of objections, weighed in public.

Desk editor's note, referee report, simulated authors' rebuttal, and a circularity audit. Tearing a paper down is the easy half of reading it; the pith above is the substance, this is the friction.

Desk Editor's Note private letter to a colleague

This survey finds developers overestimate user satisfaction with core non-functional requirements like ease of use in aged care software, but thin sampling details limit how far the gap claim travels.

read the letter

The main point is that this paper documents a requirements perception gap across older adults, caregivers, and developers in aged care digital health tools. Developers appear to rate existing ease of use and responsiveness higher than the other groups do, while pushing for more advanced features; users lean toward simplicity and reliability instead. The mixed-methods setup with 249 responses and both inferential stats and thematic analysis on open answers gives a concrete picture of where priorities line up and where they split. Basing the questionnaire on a prior systematic review is a reasonable anchor, and treating developers as a distinct stakeholder group adds a useful angle that some requirements studies skip. The numbers are large enough for this domain to support the directional claims they make. That said, the sampling story is underdeveloped. The abstract and available details do not spell out recruitment channels, response rates, or any weighting against population benchmarks for aged-care users or developers. Without those, the observed divergences could partly reflect who chose to respond rather than a stable stakeholder difference. The post-hoc comparisons also need clearer reporting to confirm the significance levels hold up. This work is aimed at software engineering researchers and practitioners who build or evaluate digital health tools for aging populations. A reader focused on co-design, requirements elicitation in health contexts, or non-functional requirements would pick up practical signals about where misalignment happens. It is solid enough on the empirical side to merit a serious referee, provided the methods section gets expanded on sampling and analysis choices. I would send it out for review with targeted requests for those details rather than desk-rejecting it.

Referee Report

2 major / 2 minor

Summary. The paper reports results from a mixed-methods survey of 249 stakeholders in aged care digital health software (103 older adults, 41 caregivers, 105 developers). Drawing on questionnaire items derived from a prior systematic review, it uses inferential statistics to compare satisfaction levels and thematic analysis of open-ended responses to identify a 'Requirements Gap': developers are said to overestimate user satisfaction with core non-functional requirements (ease of use, responsiveness) while prioritising advanced functional features, whereas older adults and caregivers emphasise simplicity and reliability.

Significance. If the central claim holds after methodological clarifications, the work offers a concrete stakeholder-gap analysis that can inform co-design processes and privacy-by-design decisions in aged-care software. The mixed-methods design combining group comparisons with qualitative themes is appropriate for the research question, and grounding the instrument in a prior systematic review is a strength that enhances traceability of the functional and non-functional requirement categories examined.

major comments (2)

[§3 (Survey Design and Data Collection)] §3 (Survey Design and Data Collection): The manuscript provides no information on recruitment channels, response rate, demographic weighting, or benchmarking of the 249-participant sample against population characteristics of older adults, caregivers, and developers in aged care. This detail is load-bearing for the Requirements Gap claim, because the reported divergences in NFR satisfaction and feature prioritisation could reflect convenience-sampling artifacts rather than genuine stakeholder differences.
[§4 (Results and Statistical Analysis)] §4 (Results and Statistical Analysis): The inferential comparisons of satisfaction levels across the three groups do not report the specific statistical tests, handling of unequal group sizes (41 caregivers vs. 105 developers), correction for multiple comparisons, or effect sizes. Without these, the assertion that developers 'significantly overestimat[e] user satisfaction with core NFRs' cannot be fully evaluated and remains vulnerable to over-interpretation.

minor comments (2)

[Abstract] Abstract: Adding one sentence summarising the magnitude of the key satisfaction differences or the main themes from the qualitative analysis would strengthen the abstract's support for the 'significant Requirements Gap' conclusion.
[§3] The questionnaire items and response scales should be reproduced in an appendix or table so readers can assess framing effects on the reported NFR priorities.

Simulated Author's Rebuttal

2 responses · 0 unresolved

We thank the referee for their constructive and detailed review. The comments identify key areas where additional methodological transparency will strengthen the manuscript. We respond to each major comment below and commit to revisions that directly address the concerns raised.

read point-by-point responses

Referee: §3 (Survey Design and Data Collection): The manuscript provides no information on recruitment channels, response rate, demographic weighting, or benchmarking of the 249-participant sample against population characteristics of older adults, caregivers, and developers in aged care. This detail is load-bearing for the Requirements Gap claim, because the reported divergences in NFR satisfaction and feature prioritisation could reflect convenience-sampling artifacts rather than genuine stakeholder differences.

Authors: We agree that the absence of recruitment and sampling details limits the ability to fully evaluate potential biases in the Requirements Gap findings. In the revised manuscript we will expand §3 with a new subsection that specifies the recruitment channels (online aged-care forums and associations for older adults and caregivers; developer communities and professional networks for software developers), the overall response rate, any post-stratification weighting applied, and a comparison of sample demographics against available population benchmarks for the Australian aged-care sector. We will also add an explicit limitations paragraph acknowledging the convenience-sampling approach and its implications for generalisability. revision: yes
Referee: §4 (Results and Statistical Analysis): The inferential comparisons of satisfaction levels across the three groups do not report the specific statistical tests, handling of unequal group sizes (41 caregivers vs. 105 developers), correction for multiple comparisons, or effect sizes. Without these, the assertion that developers 'significantly overestimat[e] user satisfaction with core NFRs' cannot be fully evaluated and remains vulnerable to over-interpretation.

Authors: We accept that the current reporting of inferential statistics is insufficient for rigorous evaluation. In the revised §4 we will explicitly state the tests used (Kruskal-Wallis H tests followed by Dunn’s post-hoc tests with Bonferroni correction, chosen because of non-normality and unequal group sizes), report effect sizes (epsilon-squared), and describe how the imbalance between the caregiver (n=41) and developer (n=105) groups was handled. These additions will allow readers to assess the magnitude and robustness of the reported differences in NFR satisfaction. revision: yes

Circularity Check

0 steps flagged

No circularity: empirical survey rests on collected data

full rationale

The paper reports results from a mixed-methods survey of 249 participants (103 older adults, 41 caregivers, 105 developers) using questionnaires derived from a prior systematic review, followed by inferential statistics and thematic analysis. No equations, fitted parameters, predictions, or self-referential definitions appear; the Requirements Gap claim is produced directly by comparing stakeholder responses rather than reducing to any input by construction. Self-citation or prior-review usage is not load-bearing for any derivation, satisfying the criteria for a self-contained empirical study.

Axiom & Free-Parameter Ledger

0 free parameters · 1 axioms · 0 invented entities

The central claim rests on self-reported survey data and the assumption that questionnaire items derived from an earlier review adequately represent stakeholder views.

axioms (1)

domain assumption Self-reported survey responses accurately reflect true stakeholder perceptions and priorities without significant social desirability or recall bias.
The gap analysis and satisfaction comparisons depend directly on the validity of questionnaire answers from the three groups.

pith-pipeline@v0.9.0 · 5804 in / 1142 out tokens · 37331 ms · 2026-05-22T01:14:18.709103+00:00 · methodology

discussion (0)

Reference graph

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