Types of IoT Smart Buttons
An IoT smart button is a compact, internet-connected device designed to streamline communication, automate workflows, and enhance operational efficiency across various industries. By enabling one-touch triggering of digital actions, these smart buttons eliminate manual processes and reduce response times, making them essential tools in modern connected environments.
Widely adopted in hospitality, healthcare, and manufacturing, IoT smart buttons empower organizations to improve service delivery and operational responsiveness. In hospitality, guests or staff can instantly request housekeeping, room service, or maintenance, significantly enhancing customer satisfaction. In healthcare, patients can alert nurses for assistance with a single press, improving care coordination and safety. In manufacturing and logistics, workers can report equipment malfunctions, initiate maintenance tickets, or signal workflow changes, reducing downtime and increasing productivity.
These devices support real-time data collection, task automation, and seamless integration with mobile apps and cloud platforms—making them versatile tools for digital transformation. Below is a detailed breakdown of the most common types of IoT smart buttons and their ideal use cases.
Push Smart Button
A minimalist, user-friendly device focused on instant communication and task initiation with a single press.
Advantages
- Simple one-touch operation
- Integrates seamlessly with mobile apps
- Customizable alerts and actions
- Compact and portable design
- Quick deployment across teams
Limitations
- Limited to pre-set functions
- Requires app or platform integration
- May need battery replacement
Best for: Hotel service requests, office task automation, supply reordering, HVAC control
Fingertip Smart Button
A versatile multi-gesture button that supports single press, double-click, and long-press commands for diverse functions.
Advantages
- Multi-function capability (tap, double-tap, hold)
- Compatible with smartphones, tablets, and PCs
- Lightweight and ergonomic
- Ideal for remote or mobile workers
- Supports cross-platform IoT ecosystems
Limitations
- Learning curve for gesture differentiation
- Potential for accidental triggers
- Limited range without Bluetooth/WiFi
Best for: Remote presentations, smart home control, field service coordination, accessibility tools
WiFi Wireless Smart Button
A cloud-connected device that operates independently of local networks, enabling remote triggering from anywhere with internet access.
Advantages
- Operates over WiFi and cloud networks
- Functions remotely, even off-site
- No need for Bluetooth proximity
- Ideal for real-time check-ins and alerts
- Supports large-scale deployments
Limitations
- Dependent on stable internet connection
- Higher power consumption
- Increased setup complexity
Best for: Home automation, remote field operations, emergency check-ins, telehealth monitoring
Programmable Smart Button
A highly customizable IoT device that allows users to define complex workflows without coding, ideal for business automation.
Advantages
- No-code customization for any workflow
- Triggers multiple actions (alerts, data logging, device control)
- Reduces repetitive manual tasks
- Scalable for enterprise use
- Integrates with ERP, CRM, and monitoring systems
Limitations
- Requires initial configuration time
- Potential for misconfiguration
- Higher cost than basic models
Best for: Warehouse task management, logistics tracking, manufacturing floor alerts, office efficiency tools
| Type | Connectivity | Customization | Use Case Flexibility | Top Applications |
|---|---|---|---|---|
| Push Smart Button | Bluetooth/App-based | High | Medium | Hospitality, office automation, facility management |
| Fingertip Smart Button | Bluetooth, USB, WiFi | Very High | High | Remote work, presentations, smart homes, accessibility |
| WiFi Wireless Smart Button | WiFi, Cloud | Medium | High (Remote Use) | Field services, telehealth, home automation, security |
| Programmable Smart Button | WiFi, Bluetooth, Cloud | Extremely High | Very High | Manufacturing, logistics, enterprise workflows, data collection |
Expert Tip: When deploying IoT smart buttons at scale, ensure your platform supports centralized management and over-the-air updates to streamline maintenance and enhance security across all devices.
Durability of IoT Smart Buttons: Key Factors and Best Practices
IoT smart buttons are increasingly deployed across industrial, commercial, and outdoor environments where reliability under stress is non-negotiable. Their durability is not accidental—it is the result of careful engineering focused on materials, environmental protection, power management, and mechanical resilience. Understanding the key factors that influence longevity ensures smarter procurement, better deployment, and reduced maintenance costs.
Core Materials and Structural Integrity
The foundation of a durable IoT smart button lies in the materials used for its construction. High-performance plastics such as Polycarbonate (PC) and Acrylonitrile Butadiene Styrene (ABS) offer excellent impact resistance and dimensional stability across a wide temperature range. These materials are often preferred for enclosures due to their lightweight nature and resistance to cracking under mechanical stress.
For enhanced ruggedness, metal casings made from aluminum or even titanium alloys provide superior protection against crushing forces and electromagnetic interference. In high-visibility or high-wear applications, manufacturers often integrate Corning Gorilla Glass or scratch-resistant coatings to protect touch-sensitive surfaces and display elements.
In extreme environments—such as oil refineries, foundries, or Arctic monitoring stations—materials like Polyether Ether Ketone (PEEK) are used. PEEK is a high-performance thermoplastic known for exceptional thermal stability (withstanding temperatures up to 250°C), chemical resistance, and mechanical strength, making it ideal for mission-critical IoT deployments.
Waterproof & Dustproof Ratings (IP Code)
Since IoT buttons are frequently used in factories, construction sites, transportation fleets, and agricultural fields, they must resist intrusion from water and particulates. The International Protection (IP) Rating system provides a standardized way to evaluate this resistance.
A rating of IP65 indicates complete protection against dust (6) and resistance to low-pressure water jets from any direction (5), making it suitable for outdoor or washdown environments. For submersion or high-pressure cleaning scenarios, IP67 (temporary immersion up to 1m) or IP68 (continuous immersion) are recommended.
Beyond the IP rating, look for additional design features such as silicone gaskets, O-ring seals, and conformal coatings on internal circuitry. These enhancements prevent moisture ingress and corrosion, significantly extending service life in humid or corrosive conditions.
Battery Life and Power Reliability
Power source longevity directly impacts maintenance frequency and operational uptime. Most wireless IoT buttons use either non-rechargeable lithium batteries (e.g., CR2032, CR123A) or alkaline cells, chosen for their long shelf life and stable voltage output. These can last 2–5 years depending on usage frequency and transmission protocol (e.g., Bluetooth Low Energy, LoRaWAN).
In high-cycle or remote applications, rechargeable lithium-ion or LiFePO4 batteries offer sustainability and cost savings over time. However, they require charging infrastructure and may degrade faster in extreme temperatures.
For the harshest environments, industrial-grade batteries with extended temperature ranges (–40°C to +85°C) ensure consistent performance. Some advanced models even incorporate energy harvesting (solar, kinetic, or thermal) to eliminate batteries altogether, enabling truly maintenance-free operation.
Shock Resistance & Vibration Tolerance
Industrial settings often involve heavy machinery, frequent impacts, and constant vibrations that can damage sensitive electronics. To combat this, rugged IoT buttons are engineered with shock-absorbing housings, internal cushioning, and secure component mounting.
Many devices comply with MIL-STD-810H, a U.S. military standard that tests equipment against drops, shocks, and vibration across various environmental conditions. Passing these tests certifies that a button can survive falls from 1.2 meters onto concrete, sustained engine vibrations, and repeated mechanical stress.
Lifecycle testing—such as simulating 1 million button presses—also ensures mechanical switches maintain responsiveness over time without wear-induced failure.
Heat and Cold Resistance
Temperature extremes can cause material brittleness, battery failure, or electronic drift. IoT smart buttons designed for use in manufacturing plants, vehicles, or outdoor installations must operate reliably across wide thermal ranges.
High-temperature plastics like PEEK or liquid crystal polymers (LCP), along with metal heat sinks, help dissipate thermal energy. Internal components are often rated for operation between –40°C and +85°C, with some industrial variants supporting up to +125°C.
Thermal management also includes heat-resistant connectors, thermally stable PCB substrates, and potting compounds that protect circuits from thermal cycling and condensation. These features prevent delamination, solder joint cracking, and signal degradation in fluctuating climates.
| Durability Factor | Critical For | Recommended Standard/Feature |
|---|---|---|
| Material Strength | Impact-prone environments | Polycarbonate, Aluminum, or PEEK housing |
| Water/Dust Protection | Outdoor, washdown, dusty areas | IP65 or higher (IP67/IP68 preferred) |
| Battery Longevity | Remote or hard-to-access locations | Lithium battery (5+ year life) or energy harvesting |
| Shock & Vibration | Construction, mining, transportation | MIL-STD-810H compliance, rubberized casing |
| Temperature Range | Industrial ovens, cold storage, deserts | –40°C to +85°C operating range |
Best Practices for Maximizing Durability
Important: Deploying consumer-grade IoT buttons in industrial settings can lead to premature failure, data loss, and safety risks. Always choose purpose-built, certified devices for mission-critical applications. Investing in higher durability upfront reduces total cost of ownership and ensures reliable connectivity when it matters most.
Commercial Value and Uses of IoT Smart Buttons
IoT smart buttons are powerful yet simple devices that deliver significant commercial value across diverse industries. Despite their minimalistic design, these one-touch communication tools are integral components of modern IoT ecosystems, enabling instant connectivity between people, systems, and machines. Their plug-and-play functionality, low cost, and scalability make them ideal for deployment in environments ranging from hospitals and warehouses to retail stores and office buildings.
The smart button acts as a physical trigger for digital workflows—pressing it can initiate emergency alerts, place supply orders, request technical support, or log operational data in real time. By integrating with cloud platforms, enterprise resource planning (ERP) systems, or custom dashboards, smart buttons streamline communication, reduce human error, and accelerate response times. Their role in simplifying complex processes makes them a strategic asset for businesses aiming to enhance efficiency, safety, and customer engagement.
Cost Efficiency
One of the most compelling advantages of IoT smart buttons is their ability to reduce operational costs by replacing or supplementing more complex and expensive communication systems. With minimal infrastructure requirements—often just a wireless connection and a central monitoring platform—these devices offer a high return on investment.
- In warehouse operations, smart buttons enable real-time inventory reordering, reducing overstocking and minimizing stockouts without requiring full-scale automation.
- Facility management teams use them to report maintenance issues instantly, eliminating delays caused by phone calls or paper-based requests and reducing downtime.
- They eliminate the need for costly custom software interfaces for basic tasks, offering a low-code solution that integrates seamlessly with existing systems.
- Due to their long battery life (some lasting years on a single charge) and durable construction, maintenance and replacement costs remain low.
Key insight: A single smart button can replace multiple inefficient workflows, delivering cost savings within weeks of deployment.
Increased Productivity
By reducing friction in daily operations, IoT smart buttons significantly boost workforce productivity. Employees spend less time navigating menus, filling out forms, or waiting for approvals—all common sources of distraction and inefficiency.
- In office environments, a smart button can instantly schedule meetings, start conference calls, or request IT support, cutting through bureaucratic delays.
- Manufacturing floor workers can report machine stoppages or quality issues with one press, ensuring rapid intervention and minimizing production losses.
- Hotels and hospitality providers equip staff with buttons to request housekeeping support, report guest needs, or trigger room service—improving service speed and guest experience.
- Remote or field workers benefit from immediate access to help or information without needing to return to a desk or log into a system.
Pro tip: Deploying smart buttons at strategic locations reduces task completion time by up to 60% for routine operations.
Enhanced Customer Satisfaction
In customer-facing industries, speed and responsiveness are critical to satisfaction. IoT smart buttons empower customers to take action instantly, making service interactions faster, more personal, and less frustrating.
- Retail stores use smart buttons at checkout counters or fitting rooms to summon assistance, reducing wait times and improving perceived service quality.
- Dining establishments install buttons on tables to allow guests to order drinks, request the bill, or provide feedback—enhancing convenience and engagement.
- In healthcare, patients can press a button to call nurses, improving response times and increasing patient comfort and safety.
- Buttons can be customized to reflect brand identity and service tone, reinforcing a premium customer experience.
Business impact: Faster service response leads to higher Net Promoter Scores (NPS) and increased customer loyalty.
Real-Time Data Capture
Every button press generates valuable data that can be analyzed to optimize operations, staffing, and customer service strategies. Unlike traditional feedback methods, smart buttons provide accurate, timestamped, and context-rich event logs.
- Managers can track how often service requests are made in different areas of a facility, identifying bottlenecks or high-demand zones.
- Patterns in button usage help forecast staffing needs—e.g., more cleaning staff during peak hours in a hotel.
- Data from customer-facing buttons reveals pain points in the user journey, enabling targeted improvements in layout, training, or offerings.
- Integration with analytics platforms allows for automated reporting and alerts, supporting proactive decision-making.
Strategic advantage: Real-time insights transform simple actions into actionable business intelligence.
Implementation Strategy: Start with a pilot program in one department or location to measure impact before scaling. Focus on high-frequency, low-complexity tasks where a single button press can replace multiple steps. Pair smart buttons with clear visual cues and employee training to ensure adoption and maximize ROI.
| Industry | Use Case | Button Function | Business Benefit |
|---|---|---|---|
| Healthcare | Patient Assistance | Call nurse, request medication | Improved response time, higher patient satisfaction |
| Logistics | Warehouse Replenishment | Order inventory restock | Reduced stockouts, optimized inventory levels |
| Manufacturing | Machine Downtime Reporting | Alert maintenance team | Faster repairs, increased uptime |
| Retail | Customer Service Request | Summon associate to aisle | Enhanced shopping experience, increased sales |
| Hospitality | Room Service / Housekeeping | Request service from staff | Efficient operations, improved guest ratings |
Additional Considerations for Deployment
- Integration Capability: Choose buttons compatible with your existing tech stack (e.g., API support for CRM, ERP, or helpdesk systems).
- Customization: Labels, colors, and icons should match the intended function to prevent confusion and encourage proper use.
- Security: Ensure data transmission is encrypted and devices are authenticated to prevent unauthorized access.
- Scalability: Opt for solutions that support centralized management of hundreds or thousands of buttons across multiple sites.
- User Adoption: Involve end-users in placement decisions and provide training to ensure consistent usage and long-term success.
How to Choose IoT Smart Buttons: A Comprehensive Buyer’s Guide
Selecting the right IoT smart buttons is a strategic decision that can significantly impact operational efficiency, employee productivity, and return on investment. These compact yet powerful devices are transforming industries—from manufacturing and logistics to healthcare and retail—by enabling instant communication, triggering workflows, and enhancing real-time responsiveness. To ensure you choose a solution that aligns with your business goals, it's essential to evaluate key technical, operational, and financial factors. This guide outlines the most critical considerations when selecting IoT smart buttons for your organization.
Important Note: IoT smart buttons are more than just physical devices—they are integrated components of a larger digital ecosystem. Their value is maximized only when they are seamlessly connected to backend systems, analytics platforms, and automation tools.
1. Compatibility with Existing Systems
One of the most crucial factors in selecting an IoT smart button is its ability to integrate smoothly with your current technology infrastructure. A well-chosen button should work effortlessly with your existing software platforms, cloud services, operating systems, and enterprise applications—without requiring costly middleware or extensive customization.
- Look for buttons that offer open APIs or pre-built integrations with popular platforms such as Microsoft Azure, AWS IoT, Google Cloud, SAP, Salesforce, or Slack.
- Ensure compatibility with your organization’s network protocols, such as Wi-Fi, Bluetooth Low Energy (BLE), Zigbee, LoRaWAN, or cellular (NB-IoT, LTE-M).
- Verify whether the device supports MQTT, HTTP, or RESTful APIs for reliable data transmission.
- Check if the vendor provides SDKs or developer tools for custom application development.
Choosing a compatible solution reduces deployment time, minimizes integration costs, and enables faster realization of benefits.
Pro Tip: Request a sandbox environment or trial integration from the vendor to test connectivity with your systems before making a bulk purchase.
2. Durability and Environmental Resilience
IoT smart buttons are often deployed in demanding environments—factory floors, warehouses, outdoor facilities, or healthcare settings—where they must withstand physical stress, moisture, dust, and temperature extremes. Therefore, durability is a non-negotiable requirement.
- Check for IP (Ingress Protection) ratings such as IP65, IP67, or IP68, which indicate resistance to dust and water ingress.
- Look for compliance with industrial standards like MIL-STD-810G for shock and vibration resistance.
- Ensure the casing is made from rugged materials like polycarbonate or rubberized coatings to prevent damage from drops or impacts.
- Verify operating temperature ranges (e.g., -20°C to 60°C) to suit your deployment environment.
Durable buttons reduce maintenance costs, minimize downtime, and ensure consistent performance across diverse operational conditions.
3. Pricing and Total Cost of Ownership (TCO)
While the upfront cost of IoT smart buttons varies based on features and build quality, focusing solely on purchase price can be misleading. A more accurate assessment comes from evaluating the Total Cost of Ownership (TCO) over the device’s lifecycle.
TCO includes:
- Purchase cost per unit
- Deployment and installation expenses
- Connectivity fees (e.g., SIM cards, data plans)
- Power management (battery life, replacement frequency, or charging infrastructure)
- Maintenance and support contracts
- Software licensing or cloud service fees
- Scalability costs for future expansion
For example, a higher-priced button with a 5-year battery life and robust firmware may offer better long-term value than a cheaper alternative requiring frequent battery replacements and software updates.
| Cost Factor | Low-Cost Button | Premium Button | Long-Term Impact |
|---|---|---|---|
| Unit Price | $15 | $45 | Higher initial investment |
| Battery Life | 6–12 months | 3–5 years | Fewer replacements, lower labor cost |
| Connectivity | Wi-Fi only | Wi-Fi + BLE + Cellular | Greater flexibility and reliability |
| Integration Support | Basic API | Full SDK + Documentation | Easier customization and maintenance |
| Expected Lifespan | 1–2 years | 5+ years | Lower replacement frequency |
4. Scalability and Flexibility
As your business grows, your IoT ecosystem should grow with it. Choose smart buttons that support scalable deployment and can adapt to evolving use cases.
- Ensure the platform allows for bulk provisioning and remote configuration of hundreds or thousands of devices.
- Look for solutions that support over-the-air (OTA) firmware updates to maintain security and functionality.
- Select buttons that are multi-purpose—capable of being reprogrammed for different workflows (e.g., from emergency alerts to inventory requests).
- Verify compatibility with a wide range of IoT gateways and edge devices to future-proof your investment.
Flexible systems empower organizations to pivot quickly, experiment with new processes, and scale operations without technological bottlenecks.
5. User Experience and Ergonomics
The success of any IoT deployment depends on user adoption. Even the most advanced smart button will fail if employees find it difficult or inconvenient to use.
Consider the following aspects of user experience (UX):
- Ergonomic design: Is the button easy to press? Is it comfortable to wear or mount in the intended location?
- Feedback mechanisms: Does it provide visual (LED), auditory (beep), or haptic (vibration) feedback to confirm activation?
- Application interface: Is the companion app or dashboard intuitive for both users and administrators?
- Training requirements: Can employees start using the button with minimal instruction?
- Customization options: Can labels, colors, or functions be personalized for different teams or tasks?
A user-friendly design accelerates adoption, reduces errors, and enhances overall satisfaction across departments.
Expert Insight: Conduct a pilot program with a small group of end-users before full rollout. Gather feedback on usability, reliability, and perceived value to refine your deployment strategy.
Bonus: Security and Data Privacy
As connected devices, IoT smart buttons can be entry points for cyber threats. Ensure your chosen solution includes:
- End-to-end data encryption (TLS, AES-128 or higher)
- Secure device authentication (e.g., certificate-based or token-based)
- Regular security patches and vulnerability management
- Compliance with data privacy regulations (e.g., GDPR, HIPAA, CCPA)
Never overlook security in favor of convenience—it’s a critical component of sustainable IoT adoption.
Final Recommendations
- Define your use case clearly before selecting hardware (e.g., emergency alerts, workflow triggers, inventory requests).
- Prioritize integration capabilities and long-term TCO over initial price.
- Choose vendors with strong customer support, clear documentation, and a proven track record.
- Test devices in real-world conditions before scaling.
- Plan for ongoing management using a centralized IoT device management platform.
By carefully evaluating compatibility, durability, cost, scalability, and user experience, you can select IoT smart buttons that deliver lasting value, improve operational agility, and support your digital transformation goals.
Frequently Asked Questions About IoT Smart Buttons
A1: IoT smart buttons play a critical role in modern manufacturing environments by empowering employees to instantly trigger actions with a single press. These wireless devices are strategically placed across factory floors to streamline communication and improve operational efficiency.
- Real-Time Alerts: Workers can raise immediate alarms for equipment malfunctions, safety hazards, or quality control issues, enabling rapid response from supervisors or maintenance teams.
- Supply Chain Automation: Buttons can automatically generate restocking requests when materials run low, integrating with inventory systems to reduce downtime.
- Process Monitoring: Used for shift change logs, machine startup/shutdown tracking, and production cycle reporting—enhancing data visibility and accountability.
- Integration: Most IoT buttons connect via Wi-Fi, Bluetooth, or LPWAN networks and integrate with cloud platforms like AWS IoT or Azure, ensuring seamless data flow across enterprise systems.
By reducing reliance on manual reporting and paper-based systems, IoT buttons help manufacturers achieve faster response times, reduce errors, and increase overall productivity.
A2: Yes, many IoT smart buttons are specifically engineered for rugged use in harsh indoor and outdoor environments. Their durability makes them ideal for industrial, agricultural, and logistics applications where exposure to extreme conditions is common.
- Weather Resistance: Most industrial-grade buttons feature IP65 to IP68 ratings, meaning they are fully protected against dust ingress and can withstand water jets or temporary submersion.
- Temperature Tolerance: Designed to operate in temperatures ranging from -20°C to +60°C (-4°F to 140°F), making them suitable for use in freezers, warehouses, or desert climates.
- Shock & Vibration Resistance: Built with reinforced casings (often polycarbonate or metal) to survive drops, vibrations, and constant handling.
- Long Battery Life: Powered by long-life lithium batteries that can last 2–5 years depending on usage frequency, minimizing maintenance needs.
These features ensure reliable performance even in demanding settings such as construction sites, shipping yards, and outdoor maintenance stations.
A3: Absolutely. Modern IoT smart button solutions are designed with scalability at their core, enabling organizations to deploy thousands of units across multiple locations while maintaining centralized control and real-time monitoring.
- Cloud Integration: Buttons can connect to enterprise cloud platforms (e.g., AWS, Google Cloud, Microsoft Azure) for scalable data processing and storage.
- ERP & CRM Compatibility: They integrate seamlessly with existing business systems like SAP, Oracle, or Salesforce to automate workflows such as work orders, service tickets, or procurement requests.
- Centralized Management: Admin dashboards allow IT teams to monitor device status, update configurations, and analyze usage patterns across global operations.
- Secure Communication: Utilize encryption protocols (TLS, AES) and authentication mechanisms to protect data integrity and prevent unauthorized access.
For example, a multinational logistics company might deploy IoT buttons in every warehouse to report equipment issues—automatically creating service tickets in their CMMS system and notifying local technicians—all without human intervention.
A4: In retail environments, IoT smart buttons enhance the customer experience by simplifying service requests and reducing wait times, leading to higher satisfaction and increased brand loyalty.
- Instant Assistance: Customers can press a button at kiosks, fitting rooms, or service counters to summon staff, eliminating the need to search for help.
- Feedback Collection: Strategically placed feedback buttons allow customers to rate their experience in real time, helping retailers identify and address issues quickly.
- Personalized Service: Integration with CRM systems enables staff to receive contextual alerts (e.g., “VIP customer needs assistance”), improving service quality.
- Operational Insights: Data from button usage helps managers optimize staffing levels and identify high-traffic areas or recurring pain points.
For instance, a luxury store might use discreet IoT buttons in fitting rooms so customers can request different sizes or styling advice without leaving the room—creating a seamless, high-touch shopping experience.
A5: While IoT smart buttons offer broad applicability, their adoption varies significantly across industries based on operational needs, human interaction levels, and return on investment.
| Industry | Adoption Level | Reasons for Limited Use |
|---|---|---|
| Agriculture | Low | Fewer real-time human interventions required; automation focuses more on sensors and machinery than on manual triggers. Remote locations may also lack reliable connectivity. |
| Mining | Moderate to Low | Highly automated processes with limited personnel on-site; safety systems often rely on fixed sensors rather than user-activated devices. Harsh underground conditions can limit deployment options. |
| Oil & Gas (Remote Sites) | Moderate | Some use for emergency alerts, but remote monitoring is typically handled by automated SCADA systems rather than manual inputs. |
| Manufacturing, Logistics, Healthcare, Hospitality, Retail | High | These sectors benefit from frequent human interaction, task coordination, and rapid response needs—making IoT buttons highly effective for workflow optimization. |
In general, industries with high service demands, complex coordination, or customer-facing operations gain the most value from IoT smart buttons. Those dominated by autonomous systems or minimal human oversight see less immediate benefit, though niche applications (e.g., emergency alerts in remote sites) still exist.
浙公网安备
33010002000092号
浙B2-20120091-4
Comments
No comments yet. Why don't you start the discussion?