Trust in QoS. Never trust how clients mark their own traffic. Classify and remark traffic at the edge of your network. Avoid rate limiting WiFi traffic to let busy talkers send their data at high data/MCS rates and then go quiet to free up airtime for other clients.

To ensure critical applications run smoothly during peak network congestion, prioritize traffic using Quality of Service (QoS) policies. Allocate higher bandwidth and priority to essential applications while limiting non-critical traffic. Implement traffic shaping and rate limiting to control the flow of data, smoothing spikes in demand. Load balancing can distribute traffic efficiently across multiple network paths. Utilize content caching to reduce external bandwidth usage, and consider using WAN optimization techniques to enhance data transfer speeds. Regularly monitor the network in real-time to detect congestion early, and schedule non-essential tasks during off-peak hours to alleviate pressure.

It's depending on nature of application. Some applications can manage network congestion using applications level measures. Some required network level measure to handle congestion which require QoS support from underlying network.

To manage network congestion during peak hours and ensure critical applications run smoothly, I’d implement a few key strategies. First, applying QoS policies can prioritize essential traffic, giving critical applications the bandwidth they need. Traffic shaping and load balancing can further control data flow and distribute traffic evenly across available pathways. Additionally, using caching for static content reduces unnecessary load on the network. Real-time monitoring also helps quickly identify bottlenecks and adjust resources, ensuring smooth performance for vital applications.

Para garantir que aplicativos críticos funcionem sem problemas durante horários de pico, nós podemos: 1. Definir prioridades: Priorize o tráfego de dados mais importante, como quem cria faixas exclusivas para veículos de emergência. 2. Distribuir carga: Divida o fluxo entre várias rotas (ou servidores) para evitar congestionamentos. 3. Monitorar continuamente: Acompanhe e ajuste o tráfego em tempo real, como um sistema de monitoramento de trânsito. 4. Escalar conforme necessário: Amplie a capacidade da rede durante picos, como abrir novas pistas em uma estrada movimentada.

Where possible have business critical systems and devices on separate VLANs to enable you to easily prioritize that traffic. I find a mixture of Quality of Service and bandwidth limiting/sharing work well. For our hospitality clients a massive chunk of network traffic is guest traffic where back office processes aren't massive. A handful of PCs and EPOS devices. For them, bandwidth limiting works well to ensure business systems are a priority but guests still get a good share for it to work well.

To mitigate network congestion during peak hours, consider these strategies: Implement QoS: Set policies to prioritize critical applications, like VoIP, over other traffic. Increase Bandwidth and Upgrade Equipment: Boost bandwidth for high-traffic links and core network segments. Consider upgrading equipment to support higher capacity. Implement VLANs: Segment network traffic types (e.g., VoIP, data) with VLANs to prevent non-critical traffic from causing congestion. These steps can help maintain optimal performance during high-demand periods.