Jul-783 Direct

| # | Criterion | Test Type | |---|-----------|-----------| | AC‑01 | The view switcher persists the selected view across page reloads. | Automated UI (Cypress) + manual regression. | | AC‑02 | When a user changes the time‑zone override for an event, the displayed start/end times update instantly. | Unit test (React component) + integration test (API). | | AC‑03 | Heat‑map colors accurately reflect the proportion of busy minutes per day (±5 %). | End‑to‑end test with fixture data, visual diff. | | AC‑04 | Outlook sync creates a matching event in July, preserving attendees, recurrence, and time‑zone. | Contract test against Microsoft Graph sandbox. | | AC‑05 | iCal sync works with at least two major providers (Apple Calendar, Mozilla Thunderbird). | Integration test with CalDAV server emulator. | | AC‑06 | All interactive controls are reachable via Tab and have ARIA labels. | Axe-core automated scan + manual keyboard audit. | | AC‑07 | Calendar page load time < 2 s on throttled 3G (Chrome DevTools). | Performance regression suite. | | AC‑08 | No GDPR‑related personal data is stored beyond what the user has consented to. | Security audit & data‑privacy review. |

| # | Requirement | Description | |---|-------------|-------------| | FR‑01 | View Switcher | A persistent control (dropdown + keyboard shortcuts) allows toggling between Month, 2‑Week, Week, and Agenda views. The control must remember the last selected view per user. | | FR‑02 | Time‑Zone Engine | Detects user’s browser/OS time‑zone. Each event stores an explicit timezone field (IANA tz string). UI shows the event time in both the user’s zone and the event’s original zone. Users may override per‑event zone via a dropdown. | | FR‑03 | Heat‑Map Overlay | For each selected calendar, a translucent colored band is rendered on the day cells representing the aggregate busy‑time density (0 %–100 %). Colors follow the brand palette (green → orange → red). Users can toggle individual calendars on/off. | | FR‑04 | Multi‑Calendar Sync | • Outlook: Use Microsoft Graph GET /me/events (beta) for read/write.
iCal: Implement CalDAV PROPFIND/REPORT for calendars.
• Sync runs every 5 min (or on user‑triggered “Refresh”).
• Conflict resolution: server‑side “last‑write‑wins” with optional user prompt. | | FR‑05 | Event Creation / Edit | UI must expose:
• Title, description, location, attendees, start/end (with time‑zone picker).
• “Add to calendar(s)” checklist.
• Real‑time conflict detection (red border if overlapping). | | FR‑06 | Accessibility | All interactive elements reachable via keyboard, ARIA labels present, color contrast ≥ 4.5:1, and screen‑reader friendly navigation. | | FR‑07 | Performance | Initial calendar load ≤ 2 seconds on a 3G connection (simulated). Subsequent view switches ≤ 800 ms. | | FR‑08 | Audit Trail | Every create, update, delete operation logs: userId, eventId, action, timestamp, source (Google/Outlook/iCal). Stored in audit.calendar_events. | JUL-783

  • Change default credentials and set device time and timezone if applicable.
  • Update firmware: obtain official firmware, upload via web UI or serial bootloader; do not power off during update.

    • This paper examines the theoretical properties, containment protocols, and societal implications of the anomalous entity designated JUL-783. While often categorized as a stationary object, JUL-783 exhibits properties of "localized temporal looping" and "kinetic absorption." This study aims to deconstruct the mechanics of its influence radius, analyze the failure of standard containment fields, and propose a new framework for interaction based on Non-Euclidean Physics. The findings suggest that JUL-783 is not merely an object but a fixed coordinate in spacetime that resists the progression of linear time. | # | Criterion | Test Type |

    | In‑Scope | Out‑of‑Scope | |--------------|-------------------| | • UI components for dynamic view switching.
    • Time‑zone auto‑detect + per‑event override UI.
    • Heat‑map overlay for up to 5 calendars.
    • Bi‑directional sync APIs for Outlook (Microsoft Graph) & iCal (CalDAV).
    • Server‑side caching of calendar data (24‑hr TTL).
    • Documentation & release notes. | • Full‑featured resource‑booking (rooms, equipment).
    • AI‑driven meeting‑time suggestions (future roadmap).
    • Mobile‑only offline cache (to be added in v3.5). | Change default credentials and set device time and

    2.1 Visual Phenomenology JUL-783 typically manifests as a floating, crystalline structure, approximately 2.5 meters in height. It does not reflect light in the traditional spectrum; rather, it absorbs photons and re-emits them as low-frequency radio waves. To the naked eye, JUL-783 appears as a jagged silhouette of "static" or "visual noise."

    2.2 The Stasis Field The primary hazard of JUL-783 is its Stasis Field. Within a 10-meter radius of the entity, the standard laws of thermodynamics are suspended. Entropy decreases rather than increases. Objects thrown into the field do not strike the entity but halt in mid-air, suspended in a moment of time.

    2.3 Kinetic Repression Any force exerted upon JUL-783 is nullified. Ballistic weaponry, high-yield explosives, and even directed energy weapons are absorbed into the object's temporal mass. This energy appears to "feed" the anomaly, expanding the radius of the Stasis Field by millimeters for every joule of energy absorbed.