@inproceedings{Thomas2017, abstract = {Distributed Denial of Service (DDoS) attacks employing reflected UDP amplification are regularly used to disrupt networks and systems. The amplification allows one rented server to generate significant volumes of data, while the reflection hides the identity of the attacker. Consequently this is an attractive, low risk, strategy for criminals bent on vandalism and extortion. To measure the uptake of this strategy we analyse the results of running a network of honeypot UDP reflectors (median size 64 nodes) from July 2014 onwards. We explore the life cycle of attacks that use our reflectors, from the scanning phase used to detect our honeypot machines, through to their use in attacks.We see a median of 1380 malicious scanners per day across all UDP protocols, and have recorded details of 4.7 million subsequent attacks involving in excess of 2.9 trillion packets. Using a capture-recapture statistical technique, we estimate that our reflectors can see between 83.0{\%} and 96.4{\%} of UDP reflection attacks over our measurement period.}, author = {Thomas, Daniel R. and Clayton, Richard and Beresford, Alastair R.}, booktitle = {APWG Symposium on Electronic Crime Research (eCrime)}, doi = {10.1109/ECRIME.2017.7945057}, month = {apr}, publisher = {IEEE}, title = {{1000 days of UDP amplification DDoS attacks}}, year = {2017} }