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Game Design Social Satisfaction Matrix

Name: Game Design Social Satisfaction Matrix
Author: stanestane

作者 Stanislav Stankovic · GitHub ↗ · v1.0.0 · MIT-0

cross-platform ✓ 安全检测通过

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当前安装

版本数

在 OpenClaw 中安装

/install game-design-social-satisfaction-matrix

功能描述

Evaluate a game's social features and multiplayer elements by their potential to create social satisfaction versus social dissatisfaction. Use when auditing...

使用说明 (SKILL.md)

Game Design Social Satisfaction Matrix

Use the Social Satisfaction Matrix to classify social elements by how much they can increase social satisfaction, how much they can create social dissatisfaction, and what that implies for design priority.

This skill is especially useful when a team knows a feature is "social" but does not yet understand whether it is an expected basic, a risky high-impact critical element, a nice booster, or mostly secondary.

Core principle

Not all social features matter in the same way.

Some social elements are basic expectations that rarely delight but cause frustration when missing. Some are high-risk, high-value systems that can either deepen connection or amplify harm. Some are nice boosters. Some barely move the needle. The point of the matrix is to stop treating all social features as equally important or equally dangerous.

The matrix

Classify elements into four categories:

Basic

Must-do elements.

low potential to create delight
high potential to create dissatisfaction if missing or weak
expected foundations of the social experience

Typical examples:

friend list
stable party formation
baseline group management
basic reporting access

Critical

Make-or-break elements.

high potential to create satisfaction
high potential to create dissatisfaction
socially valuable but risky if handled poorly

Typical examples:

voice chat
open text chat
matchmaking surfaces that strongly affect teammate quality
live team communication systems
public social reputation surfaces

Booster

Could-do elements that add satisfaction.

can make the experience nicer, warmer, or more memorable
low downside if absent
usually not necessary for functional play

Typical examples:

lightweight gifting
celebratory emotes
temporary cosmetic sharing
playful social acknowledgements

Secondary

Low-impact elements.

low potential to create strong satisfaction
low potential to create strong dissatisfaction
may matter for niche segments, but not majorly for the overall social experience

Typical examples depend heavily on audience and context. Something secondary for one game or segment may be critical for another.

What to produce

Generate:

Audit target - what game, mode, or set of social elements is being reviewed
Element map - where each chosen element sits in the matrix
Rationale - why each element belongs there
Risk and opportunity view - what the matrix reveals about the current social landscape
Improvement priorities - what to fix, protect, redesign, add, or deprioritize
Sweet-spot judgment - where the design should aim to increase satisfaction without creating disproportionate social risk

Process

1. Define the social scope

Clarify:

what game, feature set, or mode is being audited
which social elements are in scope
what audience or segment matters most
whether the team cares more about retention, safety, delight, community health, matchmaking quality, or social stickiness

Write:

Target
Audience context
Business/design concern

2. Choose the elements to map

Pick one or more social elements.

Good candidates include:

game mechanics with social consequences
chat and voice systems
nonverbal communication systems
friend, guild, or party tools
shared activities
reporting and moderation surfaces
profile and identity surfaces
social hubs or hangout spaces
gifting, acknowledgements, and reciprocal mechanics
goal-setting systems that require or encourage social participation

3. Assess satisfaction potential

For each element, ask:

can this create positive social moments?
does it help players bond, coordinate, celebrate, contribute, or belong?
does it increase trust, recognition, or meaningful cooperation?
does it align selfish goals with prosocial outcomes?
can it make the game feel warmer, stickier, or more socially rewarding?

Possible satisfaction sources:

prosocial action
bonding and familiarity
positive recognition
meaningful contribution
active participation
shared accomplishment
belonging and group identity
balanced interdependence

4. Assess dissatisfaction potential

For each element, ask:

can this facilitate harassment, griefing, or cheating?
does it depend on trust that may not exist?
can it create conflicting goals or blame?
does it require hidden knowledge or high skill from everyone?
can it leave weaker players exposed or unsupported?
are expectations unclear?
does it create open affordances with weak guardrails?

Possible dissatisfaction sources:

disruptive behavior
trust dependency
incompatible goals
knowledge dependency
skill dependency
task interdependence under pressure
weak social support
unclear expectations
abuseable communication affordances

5. Place each element in the matrix

Now classify each element:

Basic
Critical
Booster
Secondary

Do not classify by gut feel alone. Tie the placement to its satisfaction and dissatisfaction potential.

Also note if an element is:

misclassified by the team today
segment-dependent
healthy in concept but badly implemented

6. Compare the overall landscape

Step back and ask:

is the game overinvested in risky critical systems with weak guardrails?
is it missing basic foundations?
is it trying to add boosters before basics work?
are supposedly secondary features actually critical for the target segment?
is the social experience too functional and dry, with no boosters?
are there obvious opportunities to move a feature toward the sweet spot?

7. Aim for the sweet spot

The ideal is not zero risk.

The sweet spot is where a social element creates significant satisfaction while keeping dissatisfaction risk manageable through good design, guardrails, and support systems.

Typical improvement strategies:

Add a feature to increase positive social value
Change a feature to reduce downside or improve readability
Bundle features so multiple small supports increase aggregate satisfaction
Create a feature system so elements reinforce one another instead of standing alone

8. Convert the matrix into action

For each priority element, specify:

Current category
Why it matters
Main social upside
Main social downside
Design change
Expected effect

Response structure

Target

Matrix Map

Element	Category	Satisfaction Potential	Dissatisfaction Potential	Why It Sits Here
...	...	...	...	...

Landscape Read

Priority Risks

Best Opportunities

Sweet-Spot Recommendations

Fast mode

Use this quick pass when speed matters:

which social elements are basic expectations?
which are critical and risky?
which are nice boosters?
which barely matter?
where is the game under-protected, overexposed, or missing easy social upside?

Working principle

A socially sticky game is not built by piling on social features. It is built by understanding which social elements are foundational, which are dangerous but powerful, which are delightful extras, and which are mostly noise.

安全使用建议

This skill is instruction-only and internally coherent for doing social-feature audits. Before installing, consider: (1) it will generate recommendations but is not a substitute for domain experts—validate safety/moderation suggestions with your team; (2) avoid pasting sensitive production data (user IDs, chat logs, credentials) into prompts when using the skill; (3) standard review practices apply—ask for examples of past audits or a sample output to ensure its recommendations match your needs.

功能分析

Type: OpenClaw Skill Name: game-design-social-satisfaction-matrix Version: 1.0.0 The skill bundle contains a framework for analyzing game social features using a 'Social Satisfaction Matrix'. The SKILL.md file provides purely conceptual instructions for an AI agent to evaluate game design elements (e.g., chat, matchmaking, gifting) and lacks any executable code, network requests, or instructions that could lead to data exfiltration or system compromise.

能力评估

✓ Purpose & Capability

The name and description match the SKILL.md: the skill is a guidance/template for auditing social features. It requires no binaries, env vars, or external services—no unexplained capabilities are requested.

✓ Instruction Scope

SKILL.md contains step-by-step audit guidance and a clear output format (audit target, element map, rationale, risks, priorities). It does not instruct the agent to read local files, call external endpoints, or access credentials.

✓ Install Mechanism

No install specification or code files are present. Being instruction-only means nothing is written to disk or downloaded during install.

✓ Credentials

The skill requests no environment variables, credentials, or config paths. There is no disproportionate access requested for the stated design-audit purpose.

✓ Persistence & Privilege

always is false and autonomous invocation is allowed only by default platform behavior. The skill does not request persistent system presence or modification of other skills/config.

如何使用

确保已安装 OpenClaw（本地或 Docker 部署）
在对话框中输入安装命令：/install game-design-social-satisfaction-matrix
安装完成后，直接呼叫该 Skill 的名称或使用 /game-design-social-satisfaction-matrix 触发
根据 Skill 的参数说明提供必要输入，即可获得结构化输出

版本历史

v1.0.0

Initial release. Classifies social features by satisfaction upside, dissatisfaction risk, and priority for improvement.

元数据

Slug game-design-social-satisfaction-matrix

版本 1.0.0

许可证 MIT-0

累计安装 0

当前安装数 0

历史版本数 1

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