Private Networks design for seamless connectivity
Bloonet Planner is the perfect tool to design efficient, resilient, and cost-effective wireless Private Networks. It takes into account differences in propagation depending on local environment and indoor/outdoor building characteristics.
It incorporates technologies such as 4G, 5G, LoRaWan … and various frequencies (Sub 6GHz, mmW…). It also evaluates equipment needs to meet the expected KPI, meets regulation requirements and guarantees network quality by design.
Discover our integrated radio planning tool and our associated geodata and consulting services.
Digitalization transforms businesses and their ecosystems, enabling efficiency and innovation gains. However, organizations need to be able to collect, share and analyze enormous volumes of data, in real-time across their operations and with their partners. This requires seamless high-speed, high-capacity, low-latency communications that can connect thousands of IoT sensors. Whether in a factory,campus, industrial cluster, smart city, or transportation network (where objects such as trains or drones/ are in motion), connectivity underpins innovation and success.
While private networks span multiple sectors and use cases, designing effective solutions means overcoming three major challenges.
Currently, Wi-Fi and LTE are the dominant technologies within many Private Networks, making up 95% of existing implementations. However, companies are now looking beyond raw capacity to ensure that networks meet their specific needs, particularly around flexibility, QoS and low-latency. 5G is expected to power the majority of private network deployments by 2027, according to Kaleido Intelligence.
While applications might benefit from the high data rates and low-latency of 5G, other scan still be served adequately by LTE or other technologies. You need to manage the integration of different solutions when designing networks to ensure compatibility and seamless performance.
Private Networks need to operate effectively in challenging, complex environments that often cover indoor and outdoor scenarios, and can even involve moving objects (such as automated guided vehicles in factories, and railway trains).
Indoor factors such as thick walls or building insulation can cause issues for 5G signal penetration, requiring additional technology infrastructure to ensure optimal performance. At the same time, in-building model data is often less detailed than public network geodata, needing more time and expertise for collection and modeling.
Designs need to prevent interference between cells and take into account complex radio propagation behaviors, like diffraction and diffuse scattering.
Local regulatory differences need to be understood to ensure full compliance with legal requirements and standards. Securing licenses for specific frequency bands can be complex and time-consuming, making it vital that you select the right spectrum for your needs early on in the planning stage.
Private Networks must meet data privacy and security standards due to sensitive data transmission. This requires strong security and compliance with laws (i.e.GDPR)
Also on the regulatory side, networks have to comply with environmental and health regulations around radio frequency (RF) exposure and the environmental footprint of their network infrastructure.
Optimizing private network design is key to a successful deployment. Siradel’s solutions combine :
- advanced 3D geodata,
- wireless propagation modeling
- simulation software
a dedicated team of telecom experts to ensure your 5G private network reach your connectivity goals while minimizing costs and environmental impacts.
A complete private network design tool taking into account your challenges
Designing a Private Network requires a comprehensive software that addresses various critical aspects. Bloonet Planner seamlessly integrates with existing technologies , manages complex environments, and meets regulatory compliance . Each of these elements is essential for creating a robust, efficient, and future-proof private network.
Transparent technology integration
Complex environments management
Regulatory compliance features
Bloonet Planner simulates different scenarios to make the appropriate decision about the type of equipment to set up, determine how many and where to locate the antennas.
Bloonet Planner offers different levels of investigation.
Initial estimation to demonstrate the suitability of the project in terms of cost and quality of service,
Detailed design, to precisely simulate and challenge a future radio network deployment.
Based on our 30 years telecom expertise we provide precise 5G and 4G planning (ray-tracing sub-6GHz & mmW).
Our software offers indoor and outdoor Built-in simulations (complex 3D / multi-building / campus environment)
To ensure optimal network performance and coverage, our advanced software includes features for automated site selection and cell optimization
Bloonet Planner provides key metrics evaluations (coverage, throughput, EMF,…).
Bloonet Planner includes advanced features based on AI technics to propose automatic antenna placement from candidates locations and an automatic antenna setting to optimize the antenna coverage.
Bloonet Planner offers different levels of settings from non-RF experts user to telecom experts to cover various usages.
Enhance Your Network Capabilities with Data Modeling and Professional Consulting Services
By opting for our data modeling services, you can benefit from advanced analytical tools that provide a detailed and accurate representation of your network’s infrastructure. This allows for thorough analysis and precise planning, ensuring that your network design is optimized for maximum efficiency and reliability. Our expert consulting services offer personalized guidance and strategic advice, helping you navigate the complexities of network design and implementation.
These optional services are crafted to address the specific challenges and requirements of your project, offering customized solutions that enhance overall network performance. Whether you need assistance with initial planning, detailed analysis, or ongoing optimization, our team of experts is here to support you every step of the way.
By leveraging our comprehensive data modeling and consulting services, you can ensure that your network is robust, efficient, and capable of meeting the demands of modern connectivity.
Precise geodata for optimzed network
Increase the confidence in your radio network design
By leveraging precise geodata, you can significantly enhance the accuracy and reliability of your radio network design. This detailed geospatial information allows for a more thorough analysis of the environment, ensuring that every aspect of the network is meticulously planned and optimized.
With access to high-resolution indoor and outdoor-3D building models and terrain data, you can visualize potential obstacles and interference sources, enabling you to make informed decisions that improve network performance. The ability to edit and import your own 3D models further enhances customization, allowing you to tailor the design to specific project requirements and local conditions.
This comprehensive approach not only boosts the overall efficiency of your network but also increases your confidence in its performance and reliability. By considering every detail, from the smallest building to the largest terrain feature, you can ensure that your radio network is robust, resilient, and capable of meeting the demands of modern connectivity.
Expert guidance every step of the way
Receive expert guidance every step of the way, ensuring that you have the support and knowledge needed to achieve your goals. Our consulting services provide a hassle-free experience, meticulously customized to suit your specific needs or those of your clients.
From the initial stages of private network usage definition, the design of seamless connectivity via simulations to the onsite measurement and analyses, our team is dedicated to delivering comprehensive support. We assist in identifying potential challenges and developing strategic solutions, ensuring that every aspect of your network is optimized for peak performance.
Our consulting services provide more advice; we offer hands-on assistance and detailed insights that empower you to make informed decisions. Whether you are looking to enhance existing infrastructure or implement new technologies, our experts are here to guide you through the process, ensuring that your network is robust, efficient, and future-proof.
By leveraging our extensive experience and industry knowledge, we help you navigate the complexities of network design and optimization. Our goal is to provide you with the tools and expertise needed to achieve seamless connectivity and superior network performance, tailored to meet the unique demands of your project
Discover our ressources about Private Network Design
Private network for ports
Implementing 5G private networks for ports involves boosting logistics efficiency, enabling autonomous operations, and incorporating predictive maintenance.
These improvements reduce operational costs, increase productivity, and ensure reliable connectivity.
Additionally, better resource management, reduced downtime, and improved safety are achieved, which are crucial for maintaining the competitiveness and efficiency of port operations.
For example, real-time tracking of cargo and automated cranes can streamline operations, while predictive maintenance can prevent equipment failures, ensuring smooth and continuous port activities.
Private network for stadium
Enhancing 5G private network design for stadiums ensures reliable coverage for spectators, efficient crowd management, and enhanced security services
This improves the spectator experience, ensures safety, and maximizes revenue through advanced digital services. For example, high-speed connectivity allows fans to share their experiences in real-time, while smart surveillance systems enhance security.
Efficient crowd management systems can direct foot traffic smoothly, reducing congestion and enhancing the overall event experience.
This comprehensive approach ensures that stadiums can offer a modern, connected, and secure environment for all attendees.
Private network for factories
Implementing 5G private networks in factories can transform industrial operations by addressing specific manufacturing challenges.
These networks enable real-time monitoring of machinery, which can predict and prevent equipment failures, reducing downtime and maintenance costs.
For example, sensors can detect temperature fluctuations in critical machinery, alerting maintenance teams before a breakdown occurs. Enhanced automation through 5G allows for more precise and flexible production lines, improving efficiency and product quality.
This includes the use of robotic arms that can be reprogrammed on the fly to handle different tasks. Additionally, 5G supports advanced robotics and IoT devices, enabling seamless communication and coordination across the factory floor.
Private network for cities
Implementing 5G private networks in cities can revolutionize urban management by addressing specific urban challenges.
These networks enable smart traffic control systems that can dynamically adjust traffic signals to reduce congestion and pollution. Efficient energy management through smart grids can balance energy loads, integrate renewable energy sources, and reduce power outages.
Enhanced public safety is achieved through real-time surveillance and quicker emergency response times. Additionally, 5G supports smart waste management systems that optimize collection routes and reduce operational costs.
By integrating these technologies, cities can become more sustainable, resilient, and livable, providing residents with a higher quality of life and more efficient public services.
Private network for campus
Optimizing 5G private network design in complex environments, such as campuses and universities, involves addressing unique challenges like dense building structures, high user density, and diverse usage patterns.
These institutions face issues with signal interference from numerous buildings, fluctuating demand during peak hours, and the need for seamless connectivity across large areas.
Campus expect in enhanced network performance, supporting seamless communication and data transfer across academic and administrative areas, improving the overall user experience for students, faculty, and staff.
Private network for railway
Designing 5G private networks for railway companies involves addressing specific challenges such as long-distance coverage, high-speed connectivity, and signal interference from surrounding terrain.
These networks must ensure reliable communication for operational efficiency and passenger safety.
There is a need for optimized connectivity in tunnels and remote areas, ensuring continuous communication for train control systems. This aims at enhanced network performance, supporting seamless communication and data transfer along the entire railway line.
Additionally, it facilitates the integration of smart railway technologies, such as real-time monitoring systems for track conditions and advanced security measures like surveillance cameras and emergency communication systems, improving overall service quality and safety for both passengers and staff.