Tell us who is filling this form and which store location is being documented. Multiple submissions are encouraged if you oversee several sites.
Store ID/Code
Store name or friendly descriptor
Your full name
Your role
Email for follow-up
Assessment date
Understanding the physical space helps us recommend optimal sensor density and gateway placement.
Total indoor floor area (m²)
Ceiling height average (m)
Store layout type
Boutique (< 200 m²)
Flagship (> 1 000 m²)
Standard inline unit
Warehouse/Big-box
Pop-up
Mall kiosk
Multi-floor location?
Environmental challenges (check all that apply)
High dust
High humidity
Temperature extremes
Vibration near heavy machinery
Corrosive air (e.g., seaside)
None
Reliable connectivity is the artery of every edge device. Capture your current state and future upgrade plans.
Primary internet medium
Fiber
Coax cable
DSL
4G/5G cellular
Satellite
Fixed wireless
Download bandwidth (Mbps)
Upload bandwidth (Mbps)
Do you have a secondary/failover link?
Is a site-to-site VPN to HQ configured?
Wi-Fi 6 (802.11ax) already deployed?
Private 5G or CBRS in use?
Number of Wi-Fi access points
Average concurrent Wi-Fi clients
< 30
30-100
100-250
250-500
> 500
Document on-prem compute resources that can host local analytics, AI inference, or device management workloads.
Dedicated edge server/mini-rack on site?
NVIDIA Jetson/Intel NUC/Raspberry Pi deployed?
Hyper-converged infrastructure (HCI) node?
Docker or Kubernetes runtime available locally?
Preferred operating temperature range for compute
Commercial 0–40 °C
Industrial –20–60 °C
Extended –40–85 °C
Redundancy & UPS setup notes
Capture hardware that touches the customer transaction flow.
Number of fixed POS lanes
Number of mobile POS tablets/guns
Payment acceptance methods active
Mag-stripe
Chip & PIN
Contactless NFC
QR code wallet
Biometric
Cryptocurrency
Self-checkout kiosks on site?
POS terminals support Ethernet + PoE?
Receipt printers connected via network (not USB)?
Cash drawer trigger method
RJ12 from printer
USB direct
Wi-Fi/wireless
No cash drawer
Accurate inventory and friction-less checkout rely on robust RFID and barcode ecosystems.
Fixed RFID portals at dock doors?
Overhead RFID readers in ceiling?
Handheld UHF RFID sleds with staff?
RFID-enabled Point-of-Sale antennas?
RFID frequency band
HF 13.56 MHz
UHF 860-960 MHz
NFC
Mixed HF + UHF
Approx. number of RFID tags in store
Barcode scanners support 2D (QR & DataMatrix)?
Scan tunnels on conveyor belts?
Describe any scanning dead zones or interference issues
Media players, content management, and interactivity hardware form the digital customer touchpoints.
Number of digital signs/video walls
Media player OS
Windows
Android
Linux
Chrome OS
WebOS
Tizen
BrightSign
Players connected via Ethernet (not Wi-Fi)?
Touch-screen kiosks with camera & mic?
Support 4K @ 60 Hz output?
NFC tag embedded for tap-to-interact?
Digital shelf edge labels (ESL) deployed?
Content update cadence and bandwidth constraints
IoT sensors for air, energy, and space utilisation feed AI models that optimise comfort and cost.
Temperature & humidity sensors networked?
CO₂ sensors for air-quality tracking?
Occupancy/people-count sensors at entrance?
Smart energy meters on mains?
Smart energy meters on mains?
Leak detection cables in server room?
Average monthly energy consumption (kWh)
Any planned sustainability certifications (LEED, BREEAM, etc.)
Cameras, EAS gates, and edge analytics protect assets and supply visual data for customer insights.
Number of IP cameras
Camera resolution majority
720p
1080p
4 MP
4K
12 MP+
Cameras support PoE+?
Edge-based AI analytics (people, queue, heatmap)?
Video management server on site?
EAS RFID/Acoustic gates at exit?
Under-floor weight sensors at high-value shelves?
Facial recognition or biometric entry for staff?
Retention period for video footage
Smart lighting and HVAC controllers can act as sensor backbones and reduce energy spend.
LED fixtures with DALI/DMX control?
Occupancy-based dimming sensors?
Colour-tunable (tunable-white) fixtures?
HVAC connected to BACnet gateway?
Window blinds/louvers motorised?
Beacon/VLC (visible-light communication) embedded?
Describe any scheduled lighting scenes
Edge gateways aggregate sensor traffic and translate protocols. Accurate mapping avoids data silos.
Number of IoT gateways
Northbound connectivity from gateways
Ethernet
Wi-Fi
4G/5G
LoRaWAN backhaul
Satellite
Southbound protocols supported
Modbus RTU/TCP
BACnet IP
Zigbee 3.0
Thread
Matter
Z-Wave
BLE
LoRa
Proprietary sub-GHz
MQTT broker running locally?
OPC-UA server for equipment?
Store-and-forward buffering during outages?
Data compression or edge-filtering rules
Document power capacity and cable types to ensure future sensor additions do not overload circuits.
Power outlets per sales floor (count)
PoE switch budget left (Watts)
Earthing/grounding verified
Yes, within 1 year
Yes, > 1 year
No
Unknown
UPS runtime ≥ 30 min for all edge nodes?
Redundant power feeds to comms rack?
Structured cabling grade
Cat 5e
Cat 6
Cat 6A
Fiber OM3/OM4
Mixed
Spare conduit paths for new sensor cables
Prevent surprises by tracking warranties, service levels, and end-of-life schedules.
Preferred hardware refresh cycle
24 months
36 months
48 months
60+ months
As-needed
On-site spare parts cabinet?
Third-party maintenance (TPM) contracts?
Remote firmware update process automated?
Describe any vendor lock-in concerns
Ensure edge hardware meets global safety and accessibility standards.
All devices CE/FCC/IC certified?
RoHS & REACH compliance confirmed?
Fire-code compliant cable jackets (LSZH)?
Accessibility features for disabled shoppers (hearing loop, braille)?
Cyber-security penetration test within 12 months?
Additional regulatory requirements
Help us tailor financial models and sourcing strategies.
Approx. annual hardware budget
Preferred procurement model
CAPEX purchase
OPEX lease
Device-as-a-Service (DaaS)
Hybrid
Green procurement policy (energy-efficient devices)?
Local vendor/in-country warranty required?
Planned pilot or rollout timelines
Share floor plans, photos, or spreadsheets that help us visualise your edge landscape.
Any other challenges or objectives?
Upload floor plan/rack diagram
Upload photos of existing hardware
I consent to the storage and processing of data for the purpose of generating a hardware proposal
Analysis for Retail Edge Infrastructure & Hardware Assessment Form
Important Note: This analysis provides strategic insights to help you get the most from your form's submission data for powerful follow-up actions and better outcomes. Please remove this content before publishing the form to the public.
This Retail Edge Infrastructure & Hardware Assessment Form is exceptionally well-architected to capture the granular hardware reality of physical retail stores. Its greatest strength lies in the systematic, bottom-up inventory approach that starts with store identity and progressively maps every layer of the technology stack—from network backbones to individual sensors—ensuring no device is overlooked when planning phygital integrations. The form’s sectional design mirrors how IT teams actually plan deployments (network → compute → peripherals → sensors → compliance), reducing cognitive load and encouraging accurate responses. By forcing quantification (numeric fields for floor area, bandwidth, device counts) and standardizing choices (single-select for protocols, frequencies), the form guarantees data that can be instantly fed into capacity-planning algorithms and digital-twin models without further cleansing.
Another standout feature is the built-in conditional logic (e.g., “Multi-floor location?” spawns “How many floors?”) which keeps the interface uncluttered while still surfacing the deeper detail needed for multi-storey roll-outs. The repeated use of yes/no with optional open text strikes an intelligent balance between quick completion and rich context; a busy store manager can tick boxes in two minutes, yet an engineer can expand on UPS topology or gateway buffering rules when time permits. Privacy is handled proportionally: only business-critical identifiers (Store ID, assessor e-mail) are mandatory, while sensitive budget numbers remain optional, encouraging completion without triggering data-governance objections. Finally, the consent checkbox placed at the very end acts as a lightweight gate, ensuring GDPR/CCPA compliance without adding friction at the point of data entry.
The Store ID is the master foreign key that will link every subsequent sensor record to a unique spatial and commercial entity in BI dashboards. By mandating a concise, human-readable format with the placeholder “STR-UK-007, NYC-SOHO-01”, the form enforces a global namespace that prevents duplicate or cryptic entries that would otherwise break analytics joins. This single field underpins inventory reconciliation, warranty tracking, and future firmware rollouts, making its mandatory status non-negotiable for data integrity.
From a user-experience angle, the open-line text box accommodates both legacy numbering schemes and modern ERP codes, avoiding the abandonment that a rigid dropdown would cause. The early placement in the form capitalises on the respondent’s immediate familiarity with their own site naming convention, reducing cognitive load. Data-quality implications are profound: a well-structured Store ID allows machine-learning models to attribute energy usage, camera counts, and RFID read-failures to specific sites, enabling predictive maintenance and cross-store benchmarking.
Capturing the assessor’s real name creates an audit trail that is vital when million-pound infrastructure contracts hinge on the accuracy of this survey. It transforms the form from an anonymous data dump into a signed statement of record, deterring frivolous or malicious entries. The field also enables follow-up clarifications without resorting to generic mailboxes that may be ignored, thus improving response quality.
UX-wise, placing this immediately after Store ID personalises the process, reminding the respondent that a human expert—not a faceless bot—will review their data. The single-line constraint keeps the answer concise, while the lack of format validation respects cultural naming diversity. The data collected here is low-risk from a privacy standpoint because it pertains to a corporate role rather than private life, yet it provides high value for project governance and SLA enforcement.
This email address is the linchpin for the entire post-submission workflow: auto-generated IoT gateway diagrams, firmware update schedules, and budgetary quotes all route back through this channel. By mandating it, the form guarantees that every hardware profile can be validated iteratively, preventing stale or orphaned records that would undermine the digital-twin initiative. The field also enables granular consent management, allowing the retailer to retract or amend data later in compliance with GDPR Article 20 (data portability).
The placeholder omits examples, avoiding the assumption of domain format and thereby reducing abandonment among franchisees using legacy email systems. Validation occurs server-side rather than client-side, preventing regex errors that deter busy store managers. Collecting only business email addresses (implied by context) keeps the data within legitimate-interest grounds, negating the need for additional consent banners and accelerating completion.
Time-stamping each survey allows the analytics platform to track obsolescence—critical in retail where camera firmware or gateway models change every 18–24 months. A missing date would render downstream lifecycle dashboards unreliable, potentially causing overstock of spare parts for superseded hardware. The calendar picker standardises the ISO-8601 format, eliminating US/EU date-order ambiguity that plagues international rollouts.
From a user perspective, defaulting to today’s date removes friction while still permitting retrospective entry for surveys conducted offline on paper. The field’s mandatory nature ensures that cohort analyses (e.g., energy before/after LED retrofit) can be performed with temporal fidelity, directly supporting ESG reporting mandates. Because the date is personal-data-neutral, its compulsory status incurs zero privacy penalty while delivering high analytical value.
Floor area is the foundational metric for density calculations: cameras per square metre, Wi-Fi clients per square metre, RFID read-points per square metre. Without this numeric anchor, capacity recommendations become guesswork, risking over-provisioning (higher CAPEX) or under-provisioning (poor customer experience). The square-metre unit is explicitly labelled, preventing imperial/metric confusion that has caused million-dollar procurement errors in past retail expansions.
The numeric keypad on mobile devices is automatically invoked for this field, shaving seconds off entry time and reducing typo probability. The value is cross-validated against store-layout type (boutique vs big-box) to flag outliers, providing an immediate data-quality check. Because area data is not personally identifiable, mandating it carries no GDPR baggage yet unlocks precise ROI models for IoT energy savings.
Each of these mandatory fields targets a quantitative variable that directly drives licensing and hardware-sizing algorithms. For example, knowing the exact POS lane count allows the software vendor to price per-terminal analytics modules correctly, avoiding budget overruns mid-project. Similarly, bandwidth figures determine whether edge AI inference can be backhauled to cloud or must remain on-premise, impacting gateway CPU specs and thermal design. The IP-camera count feeds into storage-sizing formulas for NVRs and GPU-based analytics servers, ensuring compliance with data-retention policies without expensive last-minute upgrades.
The form’s insistence on numeric precision rather than ranges eliminates the ambiguity that plagues many RFI documents (e.g., “medium store” definitions vary by continent). This rigour produces a bill-of-materials that can be auto-generated without human interpretation, accelerating procurement cycles. Mandatory status also prevents gaps that would otherwise require costly site revisits—an operational saving that can run into hundreds of thousands for multi-site retailers.
While the form is comprehensive, its sheer length (120+ potential fields) may deter time-pressed store managers, leading to partial submissions. To mitigate, the UI should implement section-level save/resume functionality and a visible progress bar. Another risk is over-mandating: budgetary fields are wisely optional, but future iterations could relax the mandatory PoE switch budget field once camera counts exceed a threshold, since high camera counts imply high PoE demand anyway. Finally, environmental free-text fields (e.g., “scanning dead zones”) rely on respondent literacy; adding an optional voice-note upload could improve inclusivity for non-native English speakers.
Mandatory Question Analysis for Retail Edge Infrastructure & Hardware Assessment Form
Important Note: This analysis provides strategic insights to help you get the most from your form's submission data for powerful follow-up actions and better outcomes. Please remove this content before publishing the form to the public.
Store ID/Code
Justification: This identifier is the primary key that links every sensor, gateway, and infrastructure record to a unique retail location in ERP, CMDB, and digital-twin systems. Without a mandatory Store ID, downstream analytics would suffer from duplicate or orphaned entries, making it impossible to generate accurate per-site ROI reports or to schedule targeted firmware rollouts. The field also underpins compliance audits where regulators require traceability of edge devices handling customer data.
Your Full Name
Justification: Requiring the assessor’s real name creates an accountable audit trail essential for infrastructure decisions involving six-figure CAPEX. It deters casual or malicious misreporting and enables follow-up workshops where nuanced details (e.g., cable paths) can be clarified without resorting to generic mailboxes that delay projects. The name also satisfies internal governance mandates that demand a named individual sign off on every site survey.
Email for Follow-up
Justification: A mandatory email ensures that auto-generated BOMs, security advisories, and firmware update schedules reach the right stakeholder instantly. Given that edge hardware lifecycles evolve quarterly, the absence of a direct contact would render the dataset stale within months, undermining predictive-maintenance AI models. The address also serves as the channel for re-consent under GDPR, making its capture compulsory for legal compliance.
Assessment Date
Justification: Time-stamping each survey is critical for obsolescence tracking; camera models or gateway firmware can change every 18 months, and only a mandatory date allows the platform to flag surveys older than the hardware refresh cycle. Accurate dates also enable temporal cohort analyses (e.g., energy before/after LED retrofits) that feed directly into ESG reporting mandates required by many institutional investors.
Total Indoor Floor Area (m²)
Justification: Floor area is the universal denominator for density-based capacity planning—cameras, Wi-Fi clients, RFID portals, and environmental sensors are all sized per square metre. Leaving this field optional would force architects to guess store size, leading to over-provisioning (higher CAPEX) or under-provisioning (poor customer experience). The metric is impersonal and readily available from facility drawings, so mandating it incurs zero privacy risk while guaranteeing accurate BOMs.
Store Layout Type
Justification: The layout type (boutique, flagship, big-box, kiosk, etc.) acts as a categorical multiplier in AI models that predict optimal sensor density and gateway placement. Without this mandatory classification, the system cannot apply industry-tested heuristics—such as allocating one RFID portal per 200 m² in big-box versus one per 50 m² in boutiques—resulting in sub-optimal quotes and potential SLA breaches.
Primary Internet Medium
Justification: Knowing whether the backhaul is fibre, 4G, or satellite directly determines which edge workloads can be supported; for example, edge AI video analytics requiring 50 Mbps upstream cannot run reliably on DSL. Mandating this field prevents the costly scenario where compute nodes are specified for a site that lacks the bandwidth to feed cloud-based inference, averting mid-project redesigns and schedule slippage.
Download & Upload Bandwidth (Mbps)
Justification: These two numeric fields are compulsory because they feed deterministic sizing formulas for store-and-forward buffers, gateway CPU utilisation, and cloud backhaul costs. Without exact figures, the platform would default to worst-case assumptions, inflating hardware specs and customer TCO. Accurate bandwidth also informs failover design—if upload is < 10 Mbps, secondary 4G links must be provisioned, a decision that cannot be left to optional guesswork.
Number of Fixed POS Lanes
Justification: POS lane count is mandatory because analytics software is licensed per terminal and because each lane generates a predictable PoE and network load. Underestimation would trigger emergency switch upgrades post-go-live, while overestimation wastes CAPEX on unused ports. The figure also underpins queue-length AI models that predict wait times, making its accuracy mission-critical for customer-experience SLAs.
Number of IP Cameras
Justification: Camera count is the primary driver for NVR storage, GPU-based AI analytics, and PoE switch port requirements. Making it optional would force engineers to assume median densities, leading to costly under- or over-provisioning of disk arrays and compute accelerators. The field is quick to fill (most managers know their camera tally) yet delivers high-value precision for warranty renewal and firmware licensing audits.
The current mandatory set strikes an optimal balance between data integrity and user burden: only 10 out of 120+ fields are compulsory, focusing on identifiers, capacity metrics, and network baselines that cannot be inferred later. This lean approach keeps completion friction low while ensuring that downstream AI sizing engines receive the non-negotiable inputs required for accurate BOM generation and SLA compliance. To further improve completion rates, consider making two fields conditionally mandatory—e.g., “Ceiling height” only if layout type equals “Flagship” (> 1000 m²), and “PoE budget left” only if IP-camera count exceeds 16. Such context-aware rules would preserve data quality for edge cases without adding friction for smaller boutiques.
Long-term, implement a progress-saving mechanism so that respondents can complete mandatory fields first, then return to add optional richness when time permits. Pair each mandatory field with inline help text explaining why the datum is mission-critical; transparency reduces perceived arbitrariness and boosts willing compliance. Finally, audit the mandatory list quarterly—if machine-learning models evolve to infer camera count from floor-area × layout-type with > 95% accuracy, consider relaxing the camera field to optional, continually optimising the trade-off between user effort and predictive precision.