Meeuws Matthias, Pascoal David, Bermejo Iñigo, Artaso Miguel, De Ceulaer Geert, Govaerts Paul J
a The Eargroup , Herentalsebaan 75, 2100 Antwerp-Deurne, Belgium.
Cochlear Implants Int. 2017 Jul;18(4):198-206. doi: 10.1080/14670100.2017.1325093. Epub 2017 May 12.
The software application FOX ('Fitting to Outcome eXpert') is an intelligent agent to assist in the programing of cochlear implant (CI) processors. The current version utilizes a mixture of deterministic and probabilistic logic which is able to improve over time through a learning effect. This study aimed at assessing whether this learning capacity yields measurable improvements in speech understanding.
A retrospective study was performed on 25 consecutive CI recipients with a median CI use experience of 10 years who came for their annual CI follow-up fitting session. All subjects were assessed by means of speech audiometry with open set monosyllables at 40, 55, 70, and 85 dB SPL in quiet with their home MAP. Other psychoacoustic tests were executed depending on the audiologist's clinical judgment. The home MAP and the corresponding test results were entered into FOX. If FOX suggested to make MAP changes, they were implemented and another speech audiometry was performed with the new MAP.
FOX suggested MAP changes in 21 subjects (84%). The within-subject comparison showed a significant median improvement of 10, 3, 1, and 7% at 40, 55, 70, and 85 dB SPL, respectively. All but two subjects showed an instantaneous improvement in their mean speech audiometric score.
Persons with long-term CI use, who received a FOX-assisted CI fitting at least 6 months ago, display improved speech understanding after MAP modifications, as recommended by the current version of FOX. This can be explained only by intrinsic improvements in FOX's algorithms, as they have resulted from learning. This learning is an inherent feature of artificial intelligence and it may yield measurable benefit in speech understanding even in long-term CI recipients.
软件应用程序FOX(“适配结果专家”)是一种智能代理,用于辅助人工耳蜗(CI)处理器的编程。当前版本采用了确定性逻辑和概率逻辑的混合方式,能够通过学习效应随时间不断改进。本研究旨在评估这种学习能力是否能在言语理解方面产生可测量的改善。
对25名连续的CI使用者进行了一项回顾性研究,这些使用者的CI使用经验中位数为10年,前来参加年度CI随访适配 session。所有受试者均通过言语测听法进行评估,在安静环境中使用他们的家庭程序设置(MAP),在40、55、70和85 dB SPL下进行开放集单音节测试。根据听力学家的临床判断进行其他心理声学测试。将家庭MAP和相应的测试结果输入FOX。如果FOX建议进行MAP更改,则予以实施,并使用新的MAP再次进行言语测听。
FOX建议21名受试者(84%)进行MAP更改。受试者内比较显示,在40、55、70和85 dB SPL时,中位数分别显著提高了10%、3%、1%和7%。除两名受试者外,所有受试者的平均言语测听得分均立即提高。
长期使用CI且至少在6个月前接受过FOX辅助CI适配的患者,按照当前版本的FOX建议修改程序设置后,言语理解能力有所提高。这只能通过FOX算法的内在改进来解释,因为这些改进是学习的结果。这种学习是人工智能的固有特征,即使对于长期CI使用者,它也可能在言语理解方面产生可测量的益处。
