1. ISP & WISP Network Engineers- Engineers responsible for bandwidth management, user control, and fair usage policies in ISP or wireless ISP networks.
2. Network Administrators & NOC Engineers- Professionals who manage daily network operations and need to monitor, control, and optimize traffic flow.
3. MikroTik Professionals (MTCNA / MTCRE holders)- Engineers who already know routing and want to master traffic shaping, QoS, and congestion control.
4. Enterprise Network Engineers- Engineers managing corporate networks where application prioritization (VoIP, ERP, video conferencing) is critical.
5. Hotspot & PPPoE Network Administrators- Those managing hotspot users, PPPoE subscribers, bandwidth limits, and service plans.
6. IT Support & System Engineers- Professionals who troubleshoot slow network issues, congestion, and packet loss.
1. Control Bandwidth Effectively-Learn to implement Simple Queues, Queue Trees, PCQ, and QoS policies for efficient bandwidth usage.
2. Improve Network Performance- Reduce congestion, latency, and packet loss by prioritizing critical traffic.
3. Ensure Fair Usage for Users- Design fair bandwidth sharing models for ISP and enterprise environments.
4. Handle Real-World Network Problems- Gain hands-on skills to solve slow internet, peak-hour congestion, and traffic spikes.
5. Increase Career Value- Traffic control skills are highly demanded in ISP, enterprise, and data center roles.
6. Prepare for MikroTik Certification- Directly aligned with MTC TCE exam objectives, increasing certification success.
ISP / WISP Engineer
NOC Engineer
Network Administrator
Traffic & QoS Engineer
MikroTik Specialist
Prerequisite: MTCNA (MTCRE recommended)
| Title | Details |
|---|---|
| Course + Exam Fee | ৳ 4,000 |
| Total Modules | 11 |
| Course Duration | 8 Hours |
| Total Session | 4 |
| Class Duration | 2 Hours |
Traffic control concepts & objectives
Bandwidth vs throughput vs latency
MikroTik packet flow overview
FastTrack impact on traffic control
Connection marking
Packet marking
Routing marks (overview)
Best practices for clean mangle rules
Troubleshooting mangle rules
Simple queue mechanics
Targeting (IP, subnet, interface)
Limit-at vs max-limit
Priority handling
Burst configuration & tuning
Use cases & limitations
Default queue types
Per Connection Queue (PCQ)
PCQ rate, classifier, and fairness
ISP & enterprise PCQ design examples
Queue tree architecture
Global-in, global-out, and interface queues
Parent–child queues
Upload & download shaping
Priority-based traffic control
QoS concepts in MikroTik
Application prioritization (VoIP, Zoom, Teams)
Latency-sensitive traffic handling
Designing QoS for enterprises & ISPs
PPPoE bandwidth control
Hotspot user traffic shaping
Package-based bandwidth plans
Peak-hour traffic control strategies
Fair usage policy (FUP) implementation
Torch
Queue statistics
Interface traffic analysis
Detecting congestion and bottlenecks
Queue performance tuning
Avoiding common traffic control mistakes
CPU optimization & performance impact
Scaling traffic control in large networks
Slow speed troubleshooting
Packet loss & latency issues
Misconfiguration detection
Real-world problem-solving labs
ISP bandwidth control lab
Enterprise QoS lab
PPPoE + Queue Tree lab
Hotspot traffic shaping lab
