Objective The diagnosis of vertigo is challenging, particularly as patients usually present while asymptomatic. We have developed an ambulatory medical device that allows vestibular telemetry to record eye movements over a 30-day period to aid the diagnosis of vertigo. We have undertaken proof-of-concept work to identify unique properties of nystagmus that could be used to differentiate between three of the most common causes of vertigo: Meniere's disease, vestibular migraine, and Benign Paroxysmal Positional Vertigo. Patients We analyze the nystagmus from patients with a diagnosis of Meniere's disease, vestibular migraine, and Benign Paroxysmal Positional Vertigo. Interventions Our vestibular telemetry system includes a wearable, ambulatory monitor which continuously records horizontal and vertical eye-movements, as well as three-axis movements of the head. Main outcome measures Horizontal and vertical eye-movement data, and three-axis head positioning data. Results Sixteen participants were enrolled onto the study and three reported experiencing rotatory vertigo during their 30-day trial, confirmed by the presence of nystagmus in their eye-movement traces. Vestibular telemetry revealed distinct differences between the nystagmus produced during an acute Meniere's attack, and attacks of vestibular migraine and Benign Paroxysmal Positional Vertigo. Attack frequency, nystagmus duration, whether the nystagmus onset was motion provoked, nystagmus direction, slow phase velocity, and slow phase duration were found to be discriminatory features that could be exploited to allow an automated diagnosis to be made. Conclusions The data provided by vestibular telemetry can be used to differentiate between different inner-ear causes of dizziness.