Johnson, Zhao, Hunsader, Meng, Ravindar, Carran, and Tivnan (2012) recently suggested the existence of a phase transition in the dynamics of financial markets in which there is free interaction between human traders and algorithmic trading systems (‘robots’). Above a particular time-threshold, humans and robots trade with one another; below the threshold all transactions are robot-to-robot. We refer to this abrupt system transition as the ‘robot phase transition’. Here, we conduct controlled experiments where human traders interact with ‘robot’ trading agents in minimal models of electronic financial markets to see if correlates of the two regimes suggested by Johnson et al. (2012) occur in such laboratory conditions. Our results indicate that when trading robots act on a super-human timescale, the market starts to fragment, with statistically lower human-robot interactions than we would expect from a fully mixed market. We tentatively conclude that this is the first empirical evidence for the robot phase transition occurring under controlled experimental conditions.
[1]
Dave Cliff,et al.
Evidencing the "robot phase transition" in experimental human-algorithmic markets
,
2012,
ICAART 2012.
[2]
Dave Cliff,et al.
Too Fast Too Furious - Faster Financial-market Trading Agents Can Give Less Efficient Markets
,
2012,
ICAART.
[3]
Nick Feltovich.
Nonparametric Tests of Differences in Medians: Comparison of the Wilcoxon–Mann–Whitney and Robust Rank-Order Tests
,
2003
.
[4]
B. Tivnan,et al.
Financial Black Swans Driven by Ultrafast Machine Ecology
,
2012,
1202.1448.
[5]
Perukrishnen Vytelingum,et al.
The structure and behaviour of the continuous double auction
,
2006
.
[6]
Dave Cliff,et al.
Human-Agent Auction Interactions: Adaptive-Aggressive Agents Dominate
,
2011,
IJCAI.
[7]
Dave Cliff,et al.
Days Without End: On the Stability of Experimental Single-Period Continuous Double Auction Markets
,
2001
.