System and Signal Monitoring for IPTV Set-Top-Box Systems Dávid Károly Tivadar Szemethy
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System and Signal Monitoring for IPTV Set-Top-Box Systems Dávid Károly Tivadar Szemethy Árpád Bakay The need for end to end monitoring Telcos are rolling out IPTV 3-play Must ensure high availability, QoS, QoE Importance of CPE monitoring Last mile problems STB’s lack diagnostic interface Contents IPTV Network Architecture Set top box architecture MPEG-2 Transport Stream Monitoring Implementation Test results Conclusions, future work IPTV Content Delivery System Headend Core Networ k IAD Access Network VoD Cluster STB Customer Premises Set top box architecture Hardware RISC GPP Video decoding with DSP or ASIC Ethernet, SCART, IR interface Software Embedded Linux Media player User interface, browser Transport Stream Monitoring Raw UDP encapsulation TS packets Header, Adaptation PID’s, Field metadata, Elementary Streams Timestamps: PCR, PTS, DTS Transport Stream Monitoring (II) Characteristics to measure Bandwidth, Packet loss Also per stream type (audio/video/metadata) UDP-level PCR Jitter, inter-arrival gap min/max/avg characteristics PCR Jitter PCR discontinuities, missing PCR Naive implementation AF_PACKET raw sockets Packet filter Not feasible Inaccurate Eats up CPU cycles, UI responsiveness is hindered 10 Mbps HDTV stream: 23% CPU usage Packet capture inside the kernel Register a callback Dev_add_pack() Callback Gets runs in softirq context skbuf with timestamp Eliminates kernel to user copies Results can be accessed via /proc filesystem User mode portion SNMP agent based on Net-SNMP Turn on/off with SNMP row creation/deletion Sends TRAP in cast of threshold violation Repeatedly reads the proc-file Only aggregated values: averages, counters Read once per second Can be remotely queried, turned on/off Also provides diagnostic parameters Load average, free memory CPU load imposed by SNMP agent Test results Tests conducted in two settings Corporate intranet IPTV test network of a service provider The approach is workable No extra CPU load imposed (even with HDTV, up to 10 Mbps) Accurate measured values, compared to a standalone PC probe Further findings PCR behavior is codec-dependent Usefulness of diagnostic parameters Headend misconfiguration causes small subtle errors (like metadata discontinuity) This results in high STB load and frequent reboots Conclusions and future work Interpreting acquired data Further experiments are needed Compare Data mining Other parameters worth analyzing MDI per RFC1889 IGMP metrics with opinion score channel zap delay Integrate into IAD or bridging probe Thank you for your attention! Dávid Károly [email protected]