The ambulatory blood pressure monitoring timeout data will be automatically saved and you can export the data to the hospital. According to relevant public information surveys, ambulatory blood pressure monitoring refers to the process of using instruments to conduct dynamic diagnostic monitoring of hypertension. Ambulatory blood pressure monitoring involves attaching a sphygmomanometer to the upper arm of the human body for 24-hour dynamic monitoring. The monitoring interval is manually set by the instrument, which can be half an hour or one hour. After the measurement is completed, it is transmitted to the computer instrument by data analysis, and then 24-hour blood pressure status analysis is carried out by computer data analysis. If there is a wait time problem in ambula monitoringtory of blood pressure, there is no cause for concern. The results of ambulatory blood pressure monitoring will be automatically recorded and transferred to the instrument's computer for storage. You can export the recorded data to the hospital.
What is dynamic development monitoring?
Carry out dynamic monitoring as well as regular supervision and evaluation.
Dynamic monitoring refers to the use of multi-platform, multi-temporal, multi-band, and multi-source data to monitor and detect spatiotemporal changes in various elements of the Earth's resources and environment.
The ecosystem on the Earth's surface is a multi-layered, diverse and open dynamic system with spatial and temporal scales. Dynamic monitoring is the primary means of studying the migration, transformation and exchange of matier, energy and information within the system or between the system and the external environment.
Attention
Remote sensing technology has multi-dimensional, multi-platform, multi-temporal and multi-band data acquisition capabilities, as well as rapid processing and multi-source data information. composition and comprehensive and systematic multidisciplinary analysis. It provides a modern technical guarantee for dynamic monitoring and creates conditions for dynamic research into global changes.
Dynamic monitoring also has different levels in the space-time scale depending on the characteristics, scale and time scale of the measured object. In terms of spatial scale, there are global, national, regional (or basin), field, etc. ; in terms of time scale, there is the ultra short term, the short term, the medium term, the long term and very long term; in terms of content, there are complete programs, thematic, etc.
Dynamic development monitoring refers to the recording, processing and analysis of relevant formation and wellbore information using 'instruments, related instruments and equipment, to understand the laws of reservoir seepage, and analyze the state of wellbore technology, a measure to guide the development of oil fields and improve the levels of development. Dynamic development monitoring is a systematic project that runs through the entire process of oilfield development.
Figures 5.8, 5.9 and 5.10 reflect the role of dynamic monitoring at different stages of oilfield development.
Figure 5.8: The role of dynamic monitoring in the period of low water content
Figure 5.9: The role of dynamic monitoring in themedium to high water content period
>Figure 5.10: The role of dynamic monitoring in the extremely high water content period
p>